CN103809882B - Information processing method, electronic device and touch input device - Google Patents
Information processing method, electronic device and touch input device Download PDFInfo
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- CN103809882B CN103809882B CN201210441286.8A CN201210441286A CN103809882B CN 103809882 B CN103809882 B CN 103809882B CN 201210441286 A CN201210441286 A CN 201210441286A CN 103809882 B CN103809882 B CN 103809882B
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Abstract
The invention discloses an information processing method, an electronic device and a touch input device. The information processing method is applied to the electronic device comprising a touch screen. The electronic device can receive the touch operation of the touch input device. The information processing method includes the steps of detecting whether the touch screen receives the first touch operation input by the touch input device or not; when the first touch operation is detected, determining first parameter information of the first touch operation, wherein the first parameter information is particularly parameter information used for representing the included angle between the touch input device and the first plane; based on the corresponding relation between the parameter information and control instructions, selecting a first control instruction corresponding to the first parameter information from the at least two control instructions.
Description
Technical field
The present invention relates to electronic technology field, the input of more particularly to a kind of method of information processing, electronic equipment and touch-control
Device.
Background technology
With the development of electronic technology, increasing electronic equipment is generated, and the input unit of electronic equipment is also got over
Come more, such as:Mouse, keyboard, touch control unit etc..Wherein, touch control unit is received more next because easy to operate and directly perceived
The more welcome of multi-user.
Under normal circumstances, touch control unit can respond some shirtsleeve operations of touch-control input device input, such as:It is single
Operation, double click operation, slide etc. are hit, some control instructions is then produced, such as:The instruction of graphing, unblock electricity
Instruction of sub- equipment etc..
Present inventor has found exist in the prior art during the embodiment of the present application technical scheme is realized, at least
Following technical problem:
Due in the prior art, electronic equipment after the first touch control operation for receiving touch-control input device input,
The difference of the gesture that can only be based on touch control operation determines different control instructions, but but can not be based on touch-control input device and touch
Different shape between control screen determines different control instructions, so there is not accurate enough the technology of response to touch control operation
Problem, and its function is also excessively single, causes user experience not high.
The content of the invention
The embodiment of the present invention provides a kind of information processing method, electronic equipment and touch-control input device, existing for solving
To not accurate enough the technical problem of response of touch control operation in technology.
On the one hand, the application provides following technical scheme by an embodiment:
A kind of method of information processing, methods described is applied in an electronic equipment for including touch screen, and the electronics sets
The standby touch control operation that can receive a touch-control input device, methods described includes:
Detect whether the touch screen receives the first touch control operation being input into by the touch-control input device;
When first touch control operation is detected, the first parameter information of first touch control operation is determined, wherein, institute
The first parameter information is stated to be specially:Parameter for characterizing the corner dimension between the touch-control input device and the first plane is believed
Breath;
Based on the corresponding relation between parameter information and control instruction, selected from least two control instructions with it is described
The first control instruction corresponding to first parameter information.
Optionally, the touch-control input device includes N number of longitudinal electrode, wherein, N is the integer more than or equal to 1, when described
When touch-control input device is vertical with the touch screen, each longitudinal electrode and the touch screen of N number of longitudinal electrode hang down
Directly.
Optionally, first parameter information for determining first touch control operation, specifically includes:
After first touch control operation is detected, of the electrode longitudinally in each in N number of longitudinal electrode is determined
One signal intensity, to obtain N number of first signal intensity;
First parameter information is determined based on N number of first signal intensity.
Optionally, the touch-control input device includes M transverse electrode, wherein, M is the integer more than or equal to 1, when described
When touch-control input device is vertical with the touch screen, each transverse electrode of N number of transverse electrode is flat with the touch screen
Row
Optionally, first parameter information for determining first touch control operation, specifically includes:
After first touch control operation is detected, of each transverse electrode in the M transverse electrode is determined
Binary signal intensity, to obtain M secondary signal intensity;
First parameter information is determined based on the M secondary signal intensity.
Optionally, first parameter information, specially:
Angle information between the touch-control input device and the touch screen;And/or
Contact area information between the touch-control input device and the touch screen.
Optionally, when first touch control operation is specially:For the behaviour in the figure of touch screen surface rendering first
When making, first control instruction is specially:Control for the stroke width of first figure to be set to the first width
Instruction.
On the other hand, another embodiment of the application provides following technical scheme:
A kind of method of information processing, methods described is applied in a touch-control input device, is input into by the touch-control and filled
Putting can carry out touch control operation to the electronic equipment including a touch screen, and methods described includes:
Detect whether the first touch control operation for having to the touch screen;
When first touch control operation is detected, the first parameter information of first touch control operation is determined, wherein, institute
The first parameter information is stated to be specially:Parameter for characterizing the corner dimension between the touch-control input device and the first plane is believed
Breath;
First parameter information is sent to the electronic equipment, so that the electronic equipment is based on parameter information with control
Corresponding relation between system instruction, selects and first corresponding to first parameter information from least two control instructions
Control instruction.
Optionally, the touch-control input device includes N number of longitudinal electrode, wherein, N is the integer more than or equal to 1, when described
When touch-control input device is vertical with the touch screen, each longitudinal electrode and the touch screen of N number of longitudinal electrode hang down
Directly.
Optionally, first parameter information for determining first touch control operation, specifically includes:
After first touch control operation is detected, of the electrode longitudinally in each in N number of longitudinal electrode is determined
One signal intensity, to determine N number of first signal intensity;
First parameter information is determined based on N number of first signal intensity.
Optionally, the touch-control input device includes M transverse electrode, wherein, M is the integer more than or equal to 1, when described
When touch-control input device is vertical with the touch screen, each transverse electrode of N number of transverse electrode is flat with the touch screen
OK.
Optionally, first parameter information for determining first touch control operation, specifically includes:
After first touch control operation is detected, of each transverse electrode in the M transverse electrode is determined
Binary signal intensity, to determine M secondary signal intensity;
First parameter information is determined based on the M secondary signal intensity.
Optionally, first parameter information, specially:
Angle information between the touch-control input device and the touch screen;And/or
Contact area information between the touch-control input device and the touch screen.
Optionally, when first touch control operation is specially:For the behaviour in the figure of touch screen surface rendering first
When making, first control instruction is specially:Control for the stroke width of first figure to be set to the first width
Instruction.
On the other hand, another embodiment of the application provides following technical scheme:
A kind of electronic equipment, the electronic equipment includes a touch screen, also, the electronic equipment can receive a touch-control
The touch control operation of input unit, the electronic equipment also includes:
First detection module, for detecting whether the touch screen receives be input into by the touch-control input device first
Touch control operation;
First determining module, for when first touch control operation is detected, determining first touch control operation
One parameter information, wherein, first parameter information is specially:For characterizing between the touch-control input device and the first plane
Corner dimension parameter information;
Selecting module, for based on the corresponding relation between parameter information and control instruction, from least two control instructions
In select and the first control instruction corresponding to first parameter information.
Optionally, the touch-control input device includes N number of longitudinal electrode, wherein, N is the integer more than or equal to 1, when described
When touch-control input device is vertical with the touch screen, each longitudinal electrode and the touch screen of N number of longitudinal electrode hang down
Directly.
Optionally, first determining module, specifically includes:
First determining unit, for after first touch control operation is detected, determining N number of longitudinal electrode in
First signal intensity of electrode longitudinally in each, to obtain N number of first signal intensity;
Second determining unit, for determining first parameter information based on N number of first signal intensity.
Optionally, the touch-control input device includes M transverse electrode, wherein, M is the integer more than or equal to 1, when described
When touch-control input device is vertical with the touch screen, each transverse electrode of N number of transverse electrode is flat with the touch screen
OK.
Optionally, first determining module, specifically includes:
3rd determining unit, for after first touch control operation is detected, determining the M transverse electrode in
The secondary signal intensity of each transverse electrode, to obtain M secondary signal intensity;
4th determining unit, for determining first parameter information based on the M secondary signal intensity.
Optionally, first parameter information, specially:
Angle information between the touch-control input device and the touch screen;And/or
Contact area information between the touch-control input device and the touch screen.
Optionally, when first touch control operation is specially:For the behaviour in the figure of touch screen surface rendering first
When making, first control instruction is specially:Control for the stroke width of first figure to be set to the first width
Instruction.
On the other hand, another embodiment of the application provides following technical scheme:
A kind of touch-control input device, wherein, the electronics including a touch screen can be set by the touch-control input device
Standby to carry out touch control operation, the touch-control input device also includes:
Second detection module, for detecting whether in the presence of the first touch control operation to the touch screen;
Second determining module, for when first touch control operation is detected, determining first touch control operation
One parameter information, wherein, first parameter information is specially:For characterizing between the touch-control input device and the first plane
Corner dimension parameter information;
Sending module, first parameter information is sent to the electronic equipment, so that the electronic equipment is based on ginseng
Corresponding relation between number information and control instruction, selects and the first parameter information institute from least two control instructions
Corresponding first control instruction.
Optionally, the touch-control input device includes N number of longitudinal electrode, wherein, N is the integer more than or equal to 1, when described
When touch-control input device is vertical with the touch screen, each longitudinal electrode and the touch screen of N number of longitudinal electrode hang down
Directly.
Optionally, second determining module, specifically includes:
5th determining unit, for after first touch control operation is detected, determining N number of longitudinal electrode in
First signal intensity of electrode longitudinally in each, to determine N number of first signal intensity;
6th determining unit, for determining first parameter information based on N number of first signal intensity.
Optionally, the touch-control input device includes M transverse electrode, wherein, M is the integer more than or equal to 1, when described
When touch-control input device is vertical with the touch screen, each transverse electrode of N number of transverse electrode is flat with the touch screen
OK.
Optionally, second determining module, specifically includes:
7th determining unit, for after first touch control operation is detected, determining the M transverse electrode in
The secondary signal intensity of each transverse electrode, to determine M secondary signal intensity;
8th determining unit, for determining first parameter information based on the M secondary signal intensity.
Optionally, first parameter information, specially:
Angle information between the touch-control input device and the touch screen;And/or
Contact area information between the touch-control input device and the touch screen.
Optionally, when first touch control operation is specially:For the behaviour in the figure of touch screen surface rendering first
When making, first control instruction is specially:Control for the stroke width of first figure to be set to the first width
Instruction.
One or more technical schemes provided in the embodiment of the present application, at least have the following technical effect that or advantage:
(1)Due in the embodiment of the present application, employing touch-control input device is received on the touch screen of electronic equipment
Touch control operation after, it is determined that for characterize the corner dimension between touch-control input device and the first plane the first parameter believe
Breath, is then based on the difference of the first parameter information, produces the technical scheme of different control instructions, so solve prior art
In to not accurate enough the technical problem of response of touch control operation, reached the more accurate technology effect of response to touch control operation
Really.
(2)Due in the embodiment of the present application, employing, N number of longitudinal electrode, Ran Houji are set in touch-control input device
The technical scheme of first parameter information is determined in N number of first signal intensity corresponding to this N number of longitudinal electrode, due to detection
The signal intensity mode of electrode is simple, so there is technique effect easy to operate.
(3)Due in the embodiment of the present application, except can be N number of vertical inside the touch-control input device by being arranged on
Outside determining first parameter information to electrode, can also use and M transverse electrode is set in touch-control input device, then
Based on this M technical scheme that first parameter information is laterally determined to M secondary signal intensity corresponding to electrode, so
With the more diversified technique effect of detection to the first parameter information.
(4)Due in the embodiment of the present application, except determining institute based on N number of longitudinal electrode and M transverse electrode
State outside the first parameter information, first parameter information can also be determined using acceleration transducer, it is seen then that in the application reality
Apply in example, first parameter information can be detected using various ways, even if so one of which detection mode breaks down,
Still first parameter information can be detected using other manner, so, having reached can accurately obtain first parameter
The technique effect of information.
Brief description of the drawings
Fig. 1 is the flow chart of the method for information processing in the embodiment of the present application one;
Fig. 2 includes the structure chart of the touch-control input device of N number of longitudinal electrode for the embodiment of the present application one;
Fig. 3 includes the M structure chart of the touch-control input device of transverse electrode for the embodiment of the present application one;
Fig. 4 is the flow chart of the method for information processing in the embodiment of the present application two;
Fig. 5 is the block diagram of electronic equipment in the embodiment of the present application three;
Fig. 6 is the block diagram of touch-control input device in the embodiment of the present application four.
Specific embodiment
The embodiment of the present invention provides a kind of information processing method, electronic equipment and touch-control input device, existing for solving
To not accurate enough the technical problem of response of touch control operation in technology.
Technical scheme in the embodiment of the present application is to solve above-mentioned technical problem, and general thought is as follows:
When the first touch control operation being input into by touch-control input device is received on the touch screen for detect electronic equipment, really
Corresponding to fixed first touch control operation for characterizing the corner dimension between the touch-control input device and the first plane first
Parameter information, first parameter information can be determined to be then forwarded to the electronic equipment by the touch-control input device,
Can be determined by the electronic equipment;It is determined that the first parameter information, it is possible to the difference based on the first parameter information, it is determined that not
The first same control instruction, such as:If the first touch control operation is the touch-control behaviour in the figure of touch screen surface rendering first
Make, then, if carried out described in the first parameter information surface during first touch control operation touch-control input device and
The contact area of the touch screen is larger, then, by the wider of the stroke width setting of first figure;And if described
The contact surface of the touch-control input device and the touch screen during first touch control operation is carried out described in one parameter information surface
Product is smaller, then, by the narrower of the stroke width setting of first figure.
When being responded due to carrying out touch-control using such scheme, based on for characterizing between touch-control input device and the first plane
Corner dimension the first parameter information difference, different the first control instructions are produced, so reached to touch control operation
The more accurate technique effect of response.
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.
Embodiment one
The embodiment of the present application one provides a kind of method of information processing, and methods described is applied in an electronics for including touch screen
In equipment, the electronic equipment can receive the touch control operation of a touch-control input device, wherein, the electronic equipment is, for example,:
Mobile phone, panel computer, notebook computer etc.;The touch-control input device is, for example,:Stylus.
Fig. 1 is refer to, the method for described information treatment comprises the following steps:
Step S101:Detect whether the touch screen receives the first touch-control being input into by the touch-control input device and grasp
Make;
Step S102:When first touch control operation is detected, the first parameter letter of first touch control operation is determined
Breath, wherein, first parameter information is specially:It is big for characterizing the angle between the touch-control input device and the first plane
Small parameter information;
Step S103:Based on the corresponding relation between parameter information and control instruction, selected from least two control instructions
Select out and the first control instruction corresponding to first parameter information.
Wherein, in step S101, if the touch screen is capacitance plate, then, when the touch-control input device is described
When electric capacity screen surfaces carry out touch control operation, the touch-control input device will become with the electric capacity on the contact surface of the capacitance plate
Change, when the electronic equipment detects the contact surface to be changed, just can determine that the touch-control screen surfaces are grasped in the presence of the first touch-control
Make;
If the touch screen is infrared touch screen, then, when the touch-control input device is in the infrared touch screen table
When face carries out touch control operation, the touch-control input device will block two IRs at by contact surface, and then determine institute
State infrared touch-control screen surfaces and there is first touch control operation.
Certainly, in specific implementation process, the first touch-control of the touch-control screen surfaces can also be detected using other manner
Operation, no longer illustrates and is not restricted in detail to this application.
In specific implementation process, first touch control operation can be any operation, such as:Single-click operation, double-click behaviour
Work, slide etc., are not restricted to this application.
Wherein, in step S102, first parameter information can be many kinds of parameters information, such as:The touch-control input
Angle information between device and the touch screen and/or the contact area between the touch-control input device and the touch screen
Information, naturally it is also possible to for other parameters information or and other parameters information combination, i.e.,:First parameter information can be
A kind of parameter information can also be many kinds of parameters information, and this application is not restricted.
In specific implementation process, first parameter information can be determined using various ways, be set forth below therein
It is several to be introduced, certainly, in specific implementation process, however it is not limited to several situations below.
The first, refer to Fig. 2, wherein, the touch-control input device is specifically included:
Control stick 21;
Input area 22;
N number of longitudinal electrode 23, N number of longitudinal electrode 23 is arranged at the input area 22, wherein, N is more than or equal to 1
Integer, when the touch-control input device is vertical with the touch screen, each longitudinal electrode of N number of longitudinal electrode 23
(23a、23b、23c)It is vertical with the touch screen.
It is possible to determine first parameter information in the following way:
After first touch control operation is detected, of the electrode longitudinally in each in N number of longitudinal electrode is determined
One signal intensity, to obtain N number of first signal intensity;
First parameter information is determined based on N number of first signal intensity.
In specific implementation process, the contact area of electrode and touch screen is bigger, and its signal intensity is stronger, refer to Fig. 3
In touch-control input device, it includes three longitudinal electrodes, wherein, when the touch-control input device and the angle of the touch screen
For 90 degree when, only longitudinal electrode 23b and touch screen exist and contact, that is, only longitudinal electrode 23b has signal intensity, and
Longitudinal electrode 23a, longitudinal electrode 23c signal intensities are 0;And if the touch-control input device run-off the straight, such as:Left-leaning 30
Degree, then possible longitudinal electrode 23a also exists with touch screen and contacts, and then it also includes a signal intensity, and because described tactile
Control input unit is heeling condition, so 23a is maximum with the contact area of the touch screen in these three longitudinal electrodes, its signal
It is powerful also stronger.It is, the different input angle based on the touch-control input device, the touch-control input device it is N number of vertical
It is different to the signal intensity of electrode.So the signal intensity based on N number of longitudinal electrode is assured that the touch-control is defeated
Enter angle information of the device relative to the first plane, certainly, in specific implementation process, first plane can be with the touch-control
Shield place plane, can also be horizontal plane or vertical plane, this application is not restricted.
Angle information based on the touch-control input device relative to the first plane, it becomes possible to determine the touch-control input dress
Put the angle information relative to the touch screen.
For example:First plane that can prestore in the electronic device is big relative to the control angle of the electronic equipment
It is small, such as:10 degree, naturally it is also possible to be other values, such as 0 degree, -10 degree etc., the application is not restricted, and then allows touch-control
Input unit asks poor with the corner dimension of the first plane with the corner dimension that compares, and just can obtain the touch-control input device phase
For the angular dimension of the touch screen.
In specific implementation process, the touch-control input device is bigger relative to the angular dimension of the touch screen, just says
The bright touch-control input device is bigger with the contact area of the touch screen, and then based on the angle information, it becomes possible to it is determined that
Contact area between the touch-control input device and the touch screen.
Wherein, to the longitudinal electrode more than 23 set by the touch-control input device, then, the angle for being detected is also more smart
Really, and then identified first parameter information is also more accurate, so electronic equipment is also more accurate for the response of touch control operation.
As seen from the above description, N number of longitudinal direction is set in touch-control input device due in the embodiment of the present application, employing
Electrode, is then based on the technical side that N number of first signal intensity corresponding to this N number of longitudinal electrode determines first parameter information
Case, because the signal intensity mode of detecting electrode is simple, so there is technique effect easy to operate.
Second, Fig. 3 is refer to, the touch-control input device is specifically included:
Control stick 21;
Input area 22;
M transverse electrode 31, N number of transverse electrode 31 is arranged at the input area 22, wherein, M is more than or equal to 1
Integer, when the touch-control input device is vertical with the touch screen, each transverse electrode of N number of transverse electrode 31
(31a、31b、31c)It is parallel with the touch screen.
It is possible to detect first parameter information in the following way:
After first touch control operation is detected, of each transverse electrode in the M transverse electrode is determined
Binary signal intensity, to obtain M secondary signal intensity;
First parameter information is determined based on the M secondary signal intensity.
The touch-control input device in Fig. 3 is refer to, wherein, when the touch-control input device is with the angle of the touch screen
At 90 degree, no transverse electrode 23 is contacted with touch screen presence, so all of secondary signal intensity is all 0, when described
Exist between touch-control input device and the touch screen and incline, such as:Angle is 85 degree, naturally it is also possible to be other values, for example:
80 degree, 75 degree etc., now transverse electrode 31c and touch screen exist and contact, that is, only transverse electrode 31c to there is signal strong
Degree, and transverse electrode 31a, transverse electrode 31b signal intensities are 0;And if the touch-control input device continues to incline, for example:
Angle between touch-control input device and touch screen is 70 degree, naturally it is also possible to be other values, such as:65 degree, 60 degree etc., this
When, there is contact in possible transverse electrode 31c, transverse electrode 31b, thus all have signal intensity with touch screen, but laterally
The contact area of electrode 31b is maximum, so its signal is powerful most strong, and transverse electrode 31a does not have signal intensity, so can
See, the N number of secondary signal intensity based on N number of transverse electrode 31 also can determine that between the touch-control input device and the first plane
Corner dimension, and then also can determine the angle information between the touch-control input device and the touch screen or the touch-control
Contact area information between input unit and the touch screen.
Wherein, to the transverse electrode more than 31 set by the touch-control input device, then, the angle for being detected is also more smart
Really, and then identified first parameter information is also more accurate, so electronic equipment is also more accurate for the response of touch control operation.
As seen from the above description, due in the embodiment of the present application, except dress can be input into by being arranged on the touch-control
The N number of longitudinal electrode for putting inside determines outside first parameter information, can also use and M is set in touch-control input device
Transverse electrode, is then based on this M and laterally determines first parameter information to M secondary signal intensity corresponding to electrode
Technical scheme, so with the more diversified technique effect of detection to the first parameter information.
The third, the touch-control input device includes an acceleration transducer.
It is possible to determine first parameter information in the following way:
The first direction vector for obtaining the touch-control input device is detected by the acceleration transducer;
First parameter information is determined based on first direction vector.
In specific implementation process, can by acceleration transducer detect the touch-control input device X-axis, Y-axis with
And three Vector Messages of Z-direction, it is then based on these three Vector Messages, it becomes possible to determine the touch-control input device and institute
State the corner dimension between the first plane.
It is determined that after the corner dimension determined between the touch-control input device and first plane, it becomes possible to
Determine the angle information or the touch-control input device and the touch screen between the touch-control input device and the touch screen
Between contact area information, for specifically how to determine, being above described, so will not be repeated here.
In specific implementation process, can also can be believed using various detection first parameters using a kind of above-mentioned mode
Breath, is not restricted to this application.
As seen from the above description, due in the embodiment of the present application, except horizontal based on N number of longitudinal electrode and M
Outside determining first parameter information to electrode, first parameter information can also be determined using acceleration transducer, can
See, in the embodiment of the present application, first parameter information can be detected using various ways, even if so one of which is detected
Mode breaks down, and still can detect first parameter information using other manner, so, having reached accurately to obtain
The technique effect of first parameter information.
Wherein, in step S103, based on the difference of first touch control operation, first control instruction is also different, under
Face enumerate it is therein it is several be introduced, certainly, in specific implementation process, however it is not limited to several situations below.
The first, when first touch control operation is specially:For the behaviour in the figure of touch screen surface rendering first
When making, first control instruction is specially:Control for the stroke width of first figure to be set to the first width
Instruction.
It is with the first parameter information:As a example by contact area information between the touch-control input device and the touch screen,
When the contact area is larger, by the stroke width of first figure set it is wider, such as:4PX, 6PX, also may be used certainly
Being other values;When the contact area is smaller, by the stroke width of first figure set it is narrower, such as:
0.5PX, 1PX etc., naturally it is also possible to be other values, in this manner it is possible to simulate the scene of realistic rendering figure.
As seen from the above description, due in the embodiment of the present application, when the first figure is drawn, based on the first parameter information
Difference, the stroke width for drawing the first figure is also different, so reached in graphing to the first touch control operation
The more accurate technique effect of response;And real applied environment can be simulated, so the Experience Degree of the user for improving.
Second, when first touch control operation is specially:Sound for adjusting the music player of the electronic equipment
When measuring the operation of size, first control instruction is specially:For the volume of the volume player to be adjusted into the first sound
The control instruction of amount.
It is with the first parameter information:As a example by angle information between the touch-control input device and the touch screen, work as institute
State angle value corresponding to angle information it is smaller when, by the volume of the music player to adjust by a relatively large margin, such as:With
The amplitude of 10dB, 20dB increase/reduce, naturally it is also possible to be other values;When the corresponding angle value of the angle information compared with
Hour, by the volume of the music player to adjust more by a small margin, such as:Carry out increasing/reducing with the amplitude of 1dB, 2dB,
It is of course also possible to be other adjustment modes, this application is not restricted.
As seen from the above description, due in the embodiment of the present application, when the volume of music player is adjusted, being based on
The difference of the first parameter information, the amplitude of the volume of regulation is also different, so reached when volume is adjusted to the
The more accurate technique effect of response of one touch control operation.
The third, when first touch control operation is specially:For the display size of amplification picture operation when, described
One control instruction is specially:Control instruction for the display size of the picture to be enlarged into the first multiple.
It is with the first parameter information:As a example by contact area information between the touch-control input device and the touch screen,
When the contact area is larger, by the display size of the picture to amplify by a relatively large margin, such as:6 times, 8 times, also may be used certainly
Being other values;When the contact area is smaller, by the display size of described image to amplify more by a small margin, such as:0.2
Again, 0.5 times etc., naturally it is also possible to be other amplification modes, this application is not restricted.
As seen from the above description, due in the embodiment of the present application, when picture display size is adjusted, based on the first parameter
The difference of information, the amplitude for adjusting picture display size is also different, so reached when picture display size is adjusted to first
The more accurate technique effect of response of touch control operation.
Embodiment two
In order that those skilled in the art can connect the side of the information processing described in the embodiment of the present application one
Method implements process, and in the present embodiment, will stand introduce implementing for the method for the information processing in user side detailed annotation
Process.Wherein, with the electronic equipment as panel computer, the touch-control input device as stylus as a example by be introduced.
At the T1 moment, user A starts the panel computer to carry out certain operations.
At the T2 moment, user A double-clicks drills to improve one's handwriting application program using the stylus on the panel computer;It is described
Panel computer is detected after the touch control operation, opens the drills to improve one's handwriting application program;
At the T3 moment, user A writes " spring " word using the stylus on the panel computer;The panel computer
Detect after the touch control operation of user A, determine the angular dimension between the touch screen of the stylus and the panel computer,
It is assumed to be:45 degree, it is determined that after the angular dimension, it is determined that stroke width corresponding with the angular dimension, it is assumed that be:
5PX, it is determined that after the stroke width, just using the stroke width of 5PX show described in " spring " word;
At the T4 moment, user A is also writing described " spring " word, and the panel computer detects the stylus and touched with described
Angle between control screen is changed into 60 degree, so, continue to determine stroke width corresponding with the angular dimension, for example,:3PX,
Then the panel computer with the stroke width of 3PX show described in " spring " word remainder stroke.
Embodiment three
Based on same inventive concept, the embodiment of the present application three provides a kind of method of information processing, and methods described is applied
In one touch-control input device, can include that the electronic equipment of touch screen carries out touch-control behaviour to one by the touch-control input device
Make.Wherein, the touch-control input device is, for example,:Stylus, the electronic equipment is, for example,:Mobile phone, panel computer, notebook
Computer etc..
Fig. 4 is refer to, the method for described information treatment comprises the following steps:
Step S401:Detect whether the first touch control operation for having to the touch screen;
Step S402:When first touch control operation is detected, the first parameter letter of first touch control operation is determined
Breath, wherein, first parameter information is specially:It is big for characterizing the angle between the touch-control input device and the first plane
Small parameter information;
Step S403:First parameter information is sent to the electronic equipment, so that the electronic equipment is based on ginseng
Corresponding relation between number information and control instruction, selects and the first parameter information institute from least two control instructions
Corresponding first control instruction.
Wherein, in step S401, the touch-control input device can be directly based upon and detects first touch control operation, also may be used
Detect first touch control operation with by the electronic equipment, send it to the touch-control input device, for how
First touch control operation is detected, the application is not restricted.
In specific implementation process, first touch control operation can be any operation, such as:Single-click operation, double-click behaviour
Work, slide etc., are not restricted to this application.
Wherein, in step S402, first parameter information can be many kinds of parameters information, such as:The touch-control input
Angle information between device and the touch screen and/or the contact area between the touch-control input device and the touch screen
Information, naturally it is also possible to for other parameters information or and other parameters information combination, i.e.,:First parameter information can be
A kind of parameter information can also be many kinds of parameters information, and this application is not restricted.
In specific implementation process, first parameter information can be determined using various ways, be set forth below therein
It is several to be introduced, certainly, in specific implementation process, however it is not limited to several situations below.
The first, please continue to refer to Fig. 2, the touch-control input device is specifically included:
Control stick 21;
Input area 22;
N number of longitudinal electrode 23, N number of longitudinal electrode 23 is arranged at the input area 22, wherein, N is more than or equal to 1
Integer, when the touch-control input device is vertical with the touch screen, each longitudinal electrode of N number of longitudinal electrode 23
(23a、23b、23c)It is vertical with the touch screen.
It is possible to determine first parameter information in the following way:
After first touch control operation is detected, of the electrode longitudinally in each in N number of longitudinal electrode is determined
One signal intensity, to obtain N number of first signal intensity;
First parameter information is determined based on N number of first signal intensity.
Wherein, it is described using touch-control input device detection when the touch-control input device includes N number of longitudinal electrode
The mode of the first parameter information is similar with by the way of electronic equipment detection first parameter information, so herein not
Repeat again.
As seen from the above description, N number of longitudinal direction is set in touch-control input device due in the embodiment of the present application, employing
Electrode, is then based on the technical side that N number of first signal intensity corresponding to this N number of longitudinal electrode determines first parameter information
Case, because the signal intensity mode of detecting electrode is simple, so there is technique effect easy to operate.
Second, Fig. 3 is refer to, the touch-control input device is specifically included:
Control stick 21;
Input area 22;
M transverse electrode 31, N number of transverse electrode 31 is arranged at the input area 22, wherein, M is more than or equal to 1
Integer, when the touch-control input device is vertical with the touch screen, each transverse electrode of N number of transverse electrode 31
(31a、31b、31c)It is parallel with the touch screen.
In this case, first parameter information for determining first touch control operation, specifically includes:
After first touch control operation is detected, of each transverse electrode in the M transverse electrode is determined
Binary signal intensity, to determine M secondary signal intensity;
First parameter information is determined based on the M secondary signal intensity.
Wherein, it is described using touch-control input device detection when the touch-control input device includes M transverse electrode
The mode of the first parameter information is similar with by the way of electronic equipment detection first parameter information, so herein not
Repeat again.
As seen from the above description, due in the embodiment of the present application, except dress can be input into by being arranged on the touch-control
The N number of longitudinal electrode for putting inside determines outside first parameter information, can also use and M is set in touch-control input device
Transverse electrode, is then based on this M and laterally determines first parameter information to M secondary signal intensity corresponding to electrode
Technical scheme, so with the more diversified technique effect of detection to the first parameter information.
The third, the touch-control input device includes an acceleration transducer.
It is possible to determine first parameter information in the following way:
The first direction vector for obtaining the touch-control input device is detected by the acceleration transducer;
First parameter information is determined based on first direction vector.
Wherein, when the touch-control input device includes acceleration transducer, institute is detected using the touch-control input device
It is similar by the way of stating the mode of the first parameter information and detecting first parameter information using the electronic equipment, so herein
Repeat no more.
In specific implementation process, can also can be believed using various detection first parameters using a kind of above-mentioned mode
Breath, is not restricted to this application.
As seen from the above description, due in the embodiment of the present application, except horizontal based on N number of longitudinal electrode and M
Outside determining first parameter information to electrode, first parameter information can also be determined using acceleration transducer, can
See, in the embodiment of the present application, first parameter information can be detected using various ways, even if so one of which is detected
Mode breaks down, and still can detect first parameter information using other manner, so, having reached accurately to obtain
The technique effect of first parameter information.
Wherein, in step S403, sent to the electronic equipment when by first parameter information, based on described
The difference of one parameter information, first control instruction is also different, be set forth below it is therein it is several be introduced, certainly, tool
In body implementation process, however it is not limited to several situations below.
The first, when first touch control operation is specially:For the behaviour in the figure of touch screen surface rendering first
When making, first control instruction is specially:Control for the stroke width of first figure to be set to the first width
Instruction.
It is with the first parameter information:As a example by angle information between the touch-control input device and the touch screen, work as institute
State angle value corresponding to angle information it is smaller when, by the volume of the music player to adjust by a relatively large margin,;When the angle
When the corresponding angle value of degree information is smaller, by the volume of the music player adjusting more by a small margin.It is of course also possible to be it
His adjustment mode, is not restricted to this application.
As seen from the above description, due in the embodiment of the present application, when the first figure is drawn, based on the first parameter information
Difference, the stroke width for drawing the first figure is also different, so reached in graphing to the first touch control operation
The more accurate technique effect of response;And real applied environment can be simulated, so the Experience Degree of the user for improving.
Second, when first touch control operation is specially:Sound for adjusting the music player of the electronic equipment
When measuring the operation of size, first control instruction is specially:For the volume of the volume player to be adjusted into the first sound
The control instruction of amount.
It is with the first parameter information:As a example by angle information between the touch-control input device and the touch screen, work as institute
State angle value corresponding to angle information it is smaller when, by the volume of the music player adjusting by a relatively large margin;When the angle
When the corresponding angle value of degree information is smaller, by the volume of the music player adjusting more by a small margin.It is of course also possible to be it
His adjustment mode, is not restricted to this application.
As seen from the above description, due in the embodiment of the present application, when the volume of music player is adjusted, being based on
The difference of the first parameter information, the amplitude of the volume of regulation is also different, so reached when volume is adjusted to the
The more accurate technique effect of response of one touch control operation.
The third, when first touch control operation is specially:For the display size of amplification picture operation when, described
One control instruction is specially:Control instruction for the display size of the picture to be enlarged into the first multiple.
It is with the first parameter information:As a example by contact area information between the touch-control input device and the touch screen,
When the contact area is larger, by the display size of the picture to amplify by a relatively large margin,;When the contact area is smaller
When, by the display size of described image amplifying more by a small margin.Can certainly be other amplification modes, this application is not made
Limitation.
As seen from the above description, due in the embodiment of the present application, when picture display size is adjusted, based on the first parameter
The difference of information, the amplitude for adjusting picture display size is also different, so reached when picture display size is adjusted to first
The more accurate technique effect of response of touch control operation.
The information that the method for the information processing introduced by the embodiment of the present application three is introduced with the embodiment of the present application one
The method for the treatment of is similar to, and simply the device of processing data is different, so the information introduced based on the embodiment of the present application one
The method for the treatment of, those skilled in the art will appreciate that the detailed reality of the method for the information processing of three kinds of the embodiment of the present application
Existing process, so will not be repeated here.
Example IV
Based on same inventive concept, the embodiment of the present application four provides a kind of electronic equipment, and the electronic equipment includes that one touches
Control screen, also, the electronic equipment can receive the touch control operation of a touch-control input device.Wherein, the electronic equipment is for example
For:Mobile phone, panel computer, notebook computer etc.;The touch-control input device is, for example,:Stylus.
Fig. 5 is refer to, the electronic equipment includes following structure:
First detection module 501, for detecting whether the touch screen receives what is be input into by the touch-control input device
First touch control operation;
First determining module 502, for when first touch control operation is detected, determining first touch control operation
First parameter information, wherein, first parameter information is specially:For characterize the touch-control input device and the first plane it
Between corner dimension parameter information;
Selecting module 503, for based on the corresponding relation between parameter information and control instruction, referring to from least two controls
Selected in order and the first control instruction corresponding to first parameter information.
In specific implementation process, first touch control operation that the first detection module 501 is received, Ke Yiwei:
It is any operation, such as:Single-click operation, double click operation, slide etc., are not restricted to this application.
In specific implementation process, first parameter information can be many determined by first determining module 502
Parameter information is planted, such as:Angle information and/or the touch-control input dress between the touch-control input device and the touch screen
Put and the contact area information between the touch screen, naturally it is also possible to the knot for other parameters information or with other parameters information
Close, i.e.,:First parameter information can be that a kind of parameter information can also be many kinds of parameters information, and this application is not limited
System.
Also, first determining module 502, can determine first parameter information, based on it using various ways
Determination mode is different, and its functional module is also different, be set forth below it is therein it is several carried out introduction, certainly, be embodied
Cheng Zhong, is not limited to following several situations.
The first, refer to Fig. 2, wherein, the touch-control input device is specifically included:
Control stick 21;
Input area 22;
N number of longitudinal electrode 23, N number of longitudinal electrode 23 is arranged at the input area 22, wherein, N is more than or equal to 1
Integer, when the touch-control input device is vertical with the touch screen, each longitudinal electrode of N number of longitudinal electrode 23
(23a、23b、23c)It is vertical with the touch screen.
In this case, first determining module 501, specifically includes:
First determining unit, for after first touch control operation is detected, determining N number of longitudinal electrode in
First signal intensity of electrode longitudinally in each, to obtain N number of first signal intensity;
Second determining unit, for determining first parameter information based on N number of first signal intensity.
Wherein, due on specifically how to determine first parameter information, being described in the embodiment of the present application one,
So will not be repeated here.
As seen from the above description, N number of longitudinal direction is set in touch-control input device due in the embodiment of the present application, employing
Electrode, is then based on the technical side that N number of first signal intensity corresponding to this N number of longitudinal electrode determines first parameter information
Case, because the signal intensity mode of detecting electrode is simple, so there is technique effect easy to operate.
Wherein, due on specifically how to determine first parameter information, being described in the embodiment of the present application one,
So will not be repeated here.
Second, Fig. 3 is refer to, the touch-control input device is specifically included:
Control stick 21;
Input area 22;
M transverse electrode 31, N number of transverse electrode 31 is arranged at the input area 22, wherein, M is more than or equal to 1
Integer, when the touch-control input device is vertical with the touch screen, each transverse electrode of N number of transverse electrode 31
(31a、31b、31c)It is parallel with the touch screen.
In this case, first determining module 502, specifically includes:
3rd determining unit, for after first touch control operation is detected, determining the M transverse electrode in
The secondary signal intensity of each transverse electrode, to obtain M secondary signal intensity;
4th determining unit, for determining first parameter information based on the M secondary signal intensity.
As seen from the above description, except can be true by being arranged on N number of longitudinal electrode inside the touch-control input device
Outside fixed first parameter information, can also use and M transverse electrode is set in touch-control input device, be then based on this M
Individual transverse direction determines the technical scheme of first parameter information to M secondary signal intensity corresponding to electrode, so with right
The more diversified technique effect of detection of the first parameter information.
The third, the touch-control input device includes an acceleration transducer.
So, first determining module 501, specifically for:
The first direction vector for obtaining the touch-control input device is detected by the acceleration transducer;
First parameter information is determined based on first direction vector.
Wherein, due to specifically how to determine first parameter information, it has been described in the embodiment of the present application one, so
Will not be repeated here.
In specific implementation process, can also can be believed using various detection first parameters using a kind of above-mentioned mode
Breath, is not restricted to this application.
As seen from the above description, due in the embodiment of the present application, except horizontal based on N number of longitudinal electrode and M
Outside determining first parameter information to electrode, first parameter information can also be determined using acceleration transducer, can
See, in the embodiment of the present application, first parameter information can be detected using various ways, even if so one of which is detected
Mode breaks down, and still can detect first parameter information using other manner, so, having reached accurately to obtain
The technique effect of first parameter information.
Wherein, the difference based on the first touch control operation, selected first control instruction of the selecting module 503 is not yet
Together, be set forth below it is therein it is several be introduced, certainly, in specific implementation process, be not limited to following several situations.
The first, when first touch control operation is specially:For the behaviour in the figure of touch screen surface rendering first
When making, first control instruction is specially:Control for the stroke width of first figure to be set to the first width
Instruction.
As seen from the above description, due in the embodiment of the present application, when the first figure is drawn, based on the first parameter information
Difference, the stroke width for drawing the first figure is also different, so reached in graphing to the first touch control operation
The more accurate technique effect of response;And real applied environment can be simulated, so the Experience Degree of the user for improving.
Second, when first touch control operation is specially:Sound for adjusting the music player of the electronic equipment
When measuring the operation of size, first control instruction is specially:For the volume of the volume player to be adjusted into the first sound
The control instruction of amount.
As seen from the above description, due in the embodiment of the present application, when the volume of music player is adjusted, being based on
The difference of the first parameter information, the amplitude of the volume of regulation is also different, so reached when volume is adjusted to the
The more accurate technique effect of response of one touch control operation.
The third, when first touch control operation is specially:For the display size of amplification picture operation when, described
One control instruction is specially:Control instruction for the display size of the picture to be enlarged into the first multiple.
As seen from the above description, due in the embodiment of the present application, when picture display size is adjusted, based on the first parameter
The difference of information, the amplitude for adjusting picture display size is also different, so reached when picture display size is adjusted to first
The more accurate technique effect of response of touch control operation.
By the electronic equipment that the embodiment of the present application four is introduced, to implement the information processing in the embodiment of the present application one
The electronic equipment that method is used, so the method based on the information processing described in the embodiment of the present application one, this area institute
Category technical staff will appreciate that the specific embodiment and its various change form of the electronic equipment in the present embodiment four, so
No longer it is discussed in detail for the electronic equipment herein.As long as those skilled in the art implement information in the embodiment of the present application one
The electronic equipment that the method for the treatment of is used, belongs to the scope to be protected of the application.
Embodiment five
Based on same inventive concept, the embodiment of the present application five provides a kind of touch-control input device, wherein, by the touch-control
Input unit can carry out touch control operation to the electronic equipment including a touch screen.Wherein, the touch-control input device is, for example,:
Stylus, the electronic equipment is, for example,:Mobile phone, panel computer, notebook computer etc..
Fig. 6 is refer to, the touch-control input device is specifically included:
Second detection module 601, for detecting whether in the presence of the first touch control operation to the touch screen;
Second determining module 602, for when first touch control operation is detected, determining first touch control operation
First parameter information, wherein, first parameter information is specially:For characterize the touch-control input device and the first plane it
Between corner dimension parameter information;
Sending module 603, first parameter information is sent to the electronic equipment, so that the electronic equipment is based on
Corresponding relation between parameter information and control instruction, selects and first parameter information from least two control instructions
The first corresponding control instruction.
Wherein, second detection module 601 can be with the first touch control operation described in direct detection, it is also possible to receives and passes through institute
First touch control operation of electronic equipment detection is stated, the application is not restricted.
Wherein, the first parameter information determined by second determining module 602, can be many kinds of parameters information, such as:
Angle information and/or the touch-control input device and the touch screen between the touch-control input device and the touch screen it
Between contact area information, naturally it is also possible to for other parameters information or and other parameters information combination, i.e.,:First ginseng
Number information can be that a kind of parameter information can also be many kinds of parameters information, and this application is not restricted.
In specific implementation process, second determining module 602 can determine first parameter using various ways
Information, based on the difference of the determination mode, the functional part of second determining module 602 is also different, is set forth below wherein
It is several be introduced, certainly, in specific implementation process, however it is not limited to several situations below.
The first, please continue to refer to Fig. 2, the touch-control input device also includes:
Control stick 21;
Input area 22;
N number of longitudinal electrode 23, N number of longitudinal electrode 23 is arranged at the input area 22, wherein, N is more than or equal to 1
Integer, when the touch-control input device is vertical with the touch screen, each longitudinal electrode of N number of longitudinal electrode 23
(23a、23b、23c)It is vertical with the touch screen.
So, second determining module 602, specifically includes:
5th determining unit, for after first touch control operation is detected, determining N number of longitudinal electrode in
First signal intensity of electrode longitudinally in each, to determine N number of first signal intensity;
6th determining unit, for determining first parameter information based on N number of first signal intensity.
Due to specifically how to detect, it has been described in the embodiment of the present application one, three, so will not be repeated here.
As seen from the above description, N number of longitudinal direction is set in touch-control input device due in the embodiment of the present application, employing
Electrode, is then based on the technical side that N number of first signal intensity corresponding to this N number of longitudinal electrode determines first parameter information
Case, because the signal intensity mode of detecting electrode is simple, so there is technique effect easy to operate.
Second, Fig. 3 is refer to, the touch-control input device is specifically included:
Control stick 21;
Input area 22;
M transverse electrode 31, N number of transverse electrode 31 is arranged at the input area 22, wherein, M is more than or equal to 1
Integer, when the touch-control input device is vertical with the touch screen, each transverse electrode of N number of transverse electrode 31
(31a、31b、31c)It is parallel with the touch screen.
In this case, second determining module 602, specifically includes:
7th determining unit, for after first touch control operation is detected, determining the M transverse electrode in
The secondary signal intensity of each transverse electrode, to determine M secondary signal intensity;
8th determining unit, for determining first parameter information based on the M secondary signal intensity.
Due to specifically how to detect, it has been described in the embodiment of the present application one, three, so will not be repeated here.
As seen from the above description, due in the embodiment of the present application, except dress can be input into by being arranged on the touch-control
The N number of longitudinal electrode for putting inside determines outside first parameter information, can also use and M is set in touch-control input device
Transverse electrode, is then based on this M and laterally determines first parameter information to M secondary signal intensity corresponding to electrode
Technical scheme, so with the more diversified technique effect of detection to the first parameter information.
The third, the touch-control input device includes an acceleration transducer.
So, second determining module 602, specifically for:
The first direction vector for obtaining the touch-control input device is detected by the acceleration transducer;
First parameter information is determined based on first direction vector.
Due to specifically how to detect, it has been described in the embodiment of the present application one, three, so will not be repeated here.
In specific implementation process, can also can be believed using various detection first parameters using a kind of above-mentioned mode
Breath, is not restricted to this application.
As seen from the above description, except determining first parameter based on N number of longitudinal electrode and M transverse electrode
Outside information, first parameter information can also be determined using acceleration transducer, it is seen then that in the embodiment of the present application, can
First parameter information is detected with using various ways, even if so one of which detection mode breaks down, still can be with
First parameter information is detected using other manner, so, reach the skill that can accurately obtain first parameter information
Art effect.
In specific implementation process, first parameter information is sent to the electronics in the sending module 603 is set
After standby, based on the difference of first parameter information, the first control instruction determined by the electronic equipment is also different, below
Enumerate it is therein it is several be introduced, certainly, in specific implementation process, however it is not limited to several situations below.
The first, when first touch control operation is specially:For the behaviour in the figure of touch screen surface rendering first
When making, first control instruction is specially:Control for the stroke width of first figure to be set to the first width
Instruction.
As seen from the above description, due in the embodiment of the present application, when the first figure is drawn, based on the first parameter information
Difference, the stroke width for drawing the first figure is also different, so reached in graphing to the first touch control operation
The more accurate technique effect of response;And real applied environment can be simulated, so the Experience Degree of the user for improving.
Second, when first touch control operation is specially:Sound for adjusting the music player of the electronic equipment
When measuring the operation of size, first control instruction is specially:For the volume of the volume player to be adjusted into the first sound
The control instruction of amount.
As seen from the above description, due in the embodiment of the present application, when the volume of music player is adjusted, being based on
The difference of the first parameter information, the amplitude of the volume of regulation is also different, so reached when volume is adjusted to the
The more accurate technique effect of response of one touch control operation.
The third, when first touch control operation is specially:For the display size of amplification picture operation when, described
One control instruction is specially:Control instruction for the display size of the picture to be enlarged into the first multiple.
As seen from the above description, due in the embodiment of the present application, when picture display size is adjusted, based on the first parameter
The difference of information, the amplitude for adjusting picture display size is also different, so reached when picture display size is adjusted to first
The more accurate technique effect of response of touch control operation.
By the electronic equipment that the embodiment of the present application five is introduced, to implement the information processing in the embodiment of the present application three
The electronic equipment that method is used, so the method based on the information processing described in the embodiment of the present application three, this area institute
Category technical staff will appreciate that the specific embodiment and its various change form of the electronic equipment in the present embodiment five, so
No longer it is discussed in detail for the electronic equipment herein.As long as those skilled in the art implement information in the embodiment of the present application three
The electronic equipment that the method for the treatment of is used, belongs to the scope to be protected of the application.
One or more technical schemes that the application is provided, at least have the following technical effect that or advantage:
(1)Due in the embodiment of the present application, employing touch-control input device is received on the touch screen of electronic equipment
Touch control operation after, it is determined that for characterize the corner dimension between touch-control input device and the first plane the first parameter believe
Breath, is then based on the difference of the first parameter information, produces the technical scheme of different control instructions, so solve prior art
In to not accurate enough the technical problem of response of touch control operation, reached the more accurate technology effect of response to touch control operation
Really.
(2)Due in the embodiment of the present application, employing, N number of longitudinal electrode, Ran Houji are set in touch-control input device
The technical scheme of first parameter information is determined in N number of first signal intensity corresponding to this N number of longitudinal electrode, due to detection
The signal intensity mode of electrode is simple, so there is technique effect easy to operate.
(3)Due in the embodiment of the present application, except can be N number of vertical inside the touch-control input device by being arranged on
Outside determining first parameter information to electrode, can also use and M transverse electrode is set in touch-control input device, then
Based on this M technical scheme that first parameter information is laterally determined to M secondary signal intensity corresponding to electrode, so
With the more diversified technique effect of detection to the first parameter information.
(4)Due in the embodiment of the present application, except determining institute based on N number of longitudinal electrode and M transverse electrode
State outside the first parameter information, first parameter information can also be determined using acceleration transducer, it is seen then that in the application reality
Apply in example, first parameter information can be detected using various ways, even if so one of which detection mode breaks down,
Still first parameter information can be detected using other manner, so, having reached can accurately obtain first parameter
The technique effect of information.
, but those skilled in the art once know basic creation although preferred embodiments of the present invention have been described
Property concept, then can make other change and modification to these embodiments.So, appended claims are intended to be construed to include excellent
Select embodiment and fall into having altered and changing for the scope of the invention.
Obviously, those skilled in the art can carry out various changes and modification without deviating from essence of the invention to the present invention
God and scope.So, if these modifications of the invention and modification belong to the scope of the claims in the present invention and its equivalent technologies
Within, then the present invention is also intended to comprising these changes and modification.
Claims (28)
1. a kind of method of information processing, methods described is applied in an electronic equipment for including touch screen, the electronic equipment
The touch control operation of a touch-control input device can be received, it is characterised in that methods described includes:
Detect whether the touch screen receives the first touch control operation being input into by the touch-control input device;
When first touch control operation is detected, the first parameter information of first touch control operation is determined, wherein, described
One parameter information is specially:Parameter information for characterizing the corner dimension between the touch-control input device and the first plane;
Based on the corresponding relation between parameter information and control instruction, selected from least two control instructions and described first
The first control instruction corresponding to parameter information.
2. the method for claim 1, it is characterised in that the touch-control input device includes N number of longitudinal electrode, wherein, N
Be the integer more than or equal to 1, when the touch-control input device is vertical with the touch screen, N number of longitudinal electrode it is each
Individual longitudinal electrode is vertical with the touch screen.
3. method as claimed in claim 2, it is characterised in that the first parameter letter of determination first touch control operation
Breath, specifically includes:
After first touch control operation is detected, the first letter of the electrode longitudinally in each in N number of longitudinal electrode is determined
Number intensity, to obtain N number of first signal intensity;
First parameter information is determined based on N number of first signal intensity.
4. the method for claim 1, it is characterised in that the touch-control input device includes M transverse electrode, wherein, M
Be the integer more than or equal to 1, when the touch-control input device is vertical with the touch screen, N number of transverse electrode it is each
Individual transverse electrode is parallel with the touch screen.
5. method as claimed in claim 4, it is characterised in that the first parameter letter of determination first touch control operation
Breath, specifically includes:
After first touch control operation is detected, the second letter of each transverse electrode in the M transverse electrode is determined
Number intensity, to obtain M secondary signal intensity;
First parameter information is determined based on the M secondary signal intensity.
6. the method for claim 1, it is characterised in that first parameter information, specially:
Angle information between the touch-control input device and the touch screen;And/or
Contact area information between the touch-control input device and the touch screen.
7. the method as described in any claims of claim 1-6, it is characterised in that when first touch control operation is specially:With
When operation in the figure of touch screen surface rendering first, first control instruction is specially:For by described first
The stroke width of figure is set to the control instruction of the first width.
8. a kind of method of information processing, methods described is applied in a touch-control input device, by the touch-control input device
Touch control operation can be carried out to the electronic equipment including a touch screen, it is characterised in that methods described includes:
Detect whether the first touch control operation for having to the touch screen;
When first touch control operation is detected, the first parameter information of first touch control operation is determined, wherein, described
One parameter information is specially:Parameter information for characterizing the corner dimension between the touch-control input device and the first plane;
First parameter information is sent to the electronic equipment, so that the electronic equipment is referred to based on parameter information with control
Corresponding relation between order, selects and the first control corresponding to first parameter information from least two control instructions
Instruction.
9. method as claimed in claim 8, it is characterised in that the touch-control input device includes N number of longitudinal electrode, wherein, N
Be the integer more than or equal to 1, when the touch-control input device is vertical with the touch screen, N number of longitudinal electrode it is each
Individual longitudinal electrode is vertical with the touch screen.
10. method as claimed in claim 9, it is characterised in that the first parameter letter of determination first touch control operation
Breath, specifically includes:
After first touch control operation is detected, the first letter of the electrode longitudinally in each in N number of longitudinal electrode is determined
Number intensity, to determine N number of first signal intensity;
First parameter information is determined based on N number of first signal intensity.
11. methods as claimed in claim 8, it is characterised in that the touch-control input device includes M transverse electrode, wherein,
M is the integer more than or equal to 1, when the touch-control input device is vertical with the touch screen, N number of transverse electrode it is each
Individual transverse electrode is parallel with the touch screen.
12. methods as claimed in claim 11, it is characterised in that the first parameter letter of determination first touch control operation
Breath, specifically includes:
After first touch control operation is detected, the second letter of each transverse electrode in the M transverse electrode is determined
Number intensity, to determine M secondary signal intensity;
First parameter information is determined based on the M secondary signal intensity.
13. methods as claimed in claim 8, it is characterised in that first parameter information, specially:
Angle information between the touch-control input device and the touch screen;And/or
Contact area information between the touch-control input device and the touch screen.
14. method as described in any claims of claim 8-13, it is characterised in that when first touch control operation is specially:
During for operation in the figure of touch screen surface rendering first, first control instruction is specially:For by described
The stroke width of one figure is set to the control instruction of the first width.
15. a kind of electronic equipment, the electronic equipment includes a touch screen, also, the electronic equipment can receive a touch-control
The touch control operation of input unit, it is characterised in that the electronic equipment also includes:
First detection module, for detecting whether the touch screen receives the first touch-control being input into by the touch-control input device
Operation;
First determining module, the first ginseng for when first touch control operation is detected, determining first touch control operation
Number information, wherein, first parameter information is specially:For characterizing the folder between the touch-control input device and the first plane
The parameter information of angle size;
Selecting module, for based on the corresponding relation between parameter information and control instruction, being selected from least two control instructions
Select out and the first control instruction corresponding to first parameter information.
16. electronic equipments as claimed in claim 15, it is characterised in that the touch-control input device includes N number of longitudinal electrode,
Wherein, N is the integer more than or equal to 1, when the touch-control input device is vertical with the touch screen, N number of longitudinal electrode
Each longitudinal electrode it is vertical with the touch screen.
17. electronic equipments as claimed in claim 15, it is characterised in that first determining module, specifically include:
First determining unit, for after first touch control operation is detected, determining each in N number of longitudinal electrode
First signal intensity of longitudinal electrode, to obtain N number of first signal intensity;
Second determining unit, for determining first parameter information based on N number of first signal intensity.
18. electronic equipments as claimed in claim 15, it is characterised in that the touch-control input device includes M transverse electrode,
Wherein, M is the integer more than or equal to 1, when the touch-control input device is vertical with the touch screen, N number of transverse electrode
Each transverse electrode it is parallel with the touch screen.
19. electronic equipments as claimed in claim 18, it is characterised in that first determining module, specifically include:
3rd determining unit, for after first touch control operation is detected, determining each in the M transverse electrode
The secondary signal intensity of transverse electrode, to obtain M secondary signal intensity;
4th determining unit, for determining first parameter information based on the M secondary signal intensity.
20. electronic equipments as claimed in claim 15, it is characterised in that first parameter information, specially:
Angle information between the touch-control input device and the touch screen;And/or
Contact area information between the touch-control input device and the touch screen.
21. electronic equipment as described in any claims of claim 15-20, it is characterised in that when first touch control operation tool
Body is:During for operation in the figure of touch screen surface rendering first, first control instruction is specially:For by institute
The stroke width for stating the first figure is set to the control instruction of the first width.
A kind of 22. touch-control input devices, wherein, can be to the electronic equipment including a touch screen by the touch-control input device
Carry out touch control operation, it is characterised in that the touch-control input device also includes:
Second detection module, for detecting whether in the presence of the first touch control operation to the touch screen;
Second determining module, the first ginseng for when first touch control operation is detected, determining first touch control operation
Number information, wherein, first parameter information is specially:For characterizing the folder between the touch-control input device and the first plane
The parameter information of angle size;
Sending module, first parameter information is sent to the electronic equipment, so that the electronic equipment is believed based on parameter
Breath and control instruction between corresponding relation, selected from least two control instructions with corresponding to first parameter information
The first control instruction.
23. touch-control input devices as claimed in claim 22, it is characterised in that the touch-control input device includes N number of longitudinal direction
Electrode, wherein, N is the integer more than or equal to 1, when the touch-control input device is vertical with the touch screen, N number of longitudinal direction
Each longitudinal electrode of electrode is vertical with the touch screen.
24. touch-control input devices as claimed in claim 23, it is characterised in that second determining module, specifically include:
5th determining unit, for after first touch control operation is detected, determining each in N number of longitudinal electrode
First signal intensity of longitudinal electrode, to determine N number of first signal intensity;
6th determining unit, for determining first parameter information based on N number of first signal intensity.
25. touch-control input devices as claimed in claim 22, it is characterised in that the touch-control input device includes M laterally
Electrode, wherein, M is the integer more than or equal to 1, when the touch-control input device is vertical with the touch screen, N number of transverse direction
Each transverse electrode of electrode is parallel with the touch screen.
26. touch-control input devices as claimed in claim 25, it is characterised in that second determining module, specifically include:
7th determining unit, for after first touch control operation is detected, determining each in the M transverse electrode
The secondary signal intensity of transverse electrode, to determine M secondary signal intensity;
8th determining unit, for determining first parameter information based on the M secondary signal intensity.
27. touch-control input devices as claimed in claim 22, it is characterised in that first parameter information, specially:
Angle information between the touch-control input device and the touch screen;And/or
Contact area information between the touch-control input device and the touch screen.
28. touch-control input device as described in any claims of claim 22-27, it is characterised in that as first touch-control behaviour
It is specially:During for operation in the figure of touch screen surface rendering first, first control instruction is specially:For
The stroke width of first figure is set to the control instruction of the first width.
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CN105630270B (en) * | 2014-10-30 | 2019-03-29 | 联想(北京)有限公司 | A kind of information processing method, device and electronic equipment |
EP3276480A4 (en) * | 2015-04-14 | 2018-05-02 | Huawei Technologies Co. Ltd. | Gesture control method, device, terminal apparatus and storage medium |
CN105045512A (en) * | 2015-08-26 | 2015-11-11 | 宇龙计算机通信科技(深圳)有限公司 | Multi-dimensional fingerprint operation control method and apparatus |
CN107066119B (en) * | 2015-11-05 | 2020-07-07 | 禾瑞亚科技股份有限公司 | Touch system, touch pen and method for issuing command by using motion |
EP3309660B1 (en) * | 2016-08-17 | 2019-10-09 | Shenzhen Goodix Technology Co., Ltd. | Method for detecting input device, and detection device |
CN111240567B (en) * | 2020-01-08 | 2021-03-26 | 维沃移动通信有限公司 | Display screen angle adjusting method and electronic equipment |
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