CN104635923B - A kind of information processing method and equipment - Google Patents
A kind of information processing method and equipment Download PDFInfo
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- CN104635923B CN104635923B CN201410834776.3A CN201410834776A CN104635923B CN 104635923 B CN104635923 B CN 104635923B CN 201410834776 A CN201410834776 A CN 201410834776A CN 104635923 B CN104635923 B CN 104635923B
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Abstract
The embodiment of the invention discloses a kind of information processing method and equipment;The method includes:Whether detection operation object meets the first preset condition, obtains the first testing result;Wherein, the operation object is that the object changed with the induction region relative position of the sensing unit can be detected by the sensing unit of first equipment;When first testing result shows that the operation object meets first preset condition, adjust instruction is executed, the sensing unit is switched into second mode by first mode;Wherein, in the first mode, when the sensing unit detects the operation object relative position variation, the operation object and the sensing unit have the first comparative resistance;In the second mode, when the sensing unit detects the operation object relative position variation, the operation object and the sensing unit have the second comparative resistance, first comparative resistance and second comparative resistance difference.
Description
Technical field
The present invention relates to the information processing technologies, and in particular to a kind of information processing method and equipment.
Background technology
In the prior art, when user, which picks up felt pen, to be operated to the display screen of electronic equipment, the sense of touch of display screen
It is smooth sense of touch corresponding with the material of display screen, keeps the tactile experience of user single, is unfavorable for the operating experience of user.
Invention content
It, can to solve existing technical problem, a kind of information processing method of offer of the embodiment of the present invention and equipment
It realizes that the induction region of equipment is in papery sense of touch, promotes the operating experience of user.
In order to achieve the above objectives, the technical solution of the embodiment of the present invention is realized in:
An embodiment of the present invention provides a kind of information processing methods, are applied in the first equipment, the method includes:
Whether detection operation object meets the first preset condition, obtains the first testing result;Wherein, the operation object is
The object changed with the induction region relative position of the sensing unit can be detected by the sensing unit of first equipment;
When first testing result shows that the operation object meets first preset condition, executes adjustment and refer to
It enables, the sensing unit is switched into second mode by first mode;Wherein, in the first mode, the sensing unit
When detecting the operation object relative position variation, the operation object and the sensing unit have the first comparative resistance;
Under the second mode, when the sensing unit detects the operation object relative position variation, the operation object and described
Sensing unit has the second comparative resistance, first comparative resistance and second comparative resistance difference.
The embodiment of the present invention additionally provides a kind of equipment, and the equipment is the first equipment;First equipment includes:Induction
Unit, detection unit and adjustment execution unit;Wherein,
The sensing unit, for detecting operation object;The operation object is that can be detected by the sensing unit
To the object with the variation of the induction region relative position of the sensing unit;
The detection unit obtains the first testing result for detecting whether operation object meets the first preset condition;
The adjustment execution unit, first testing result for being obtained when the detection unit show the operation
When object meets first preset condition, adjust instruction is executed, the sensing unit is switched into the second mould by first mode
Formula;Wherein, in the first mode, when the sensing unit detects the operation object relative position variation, the operation
Object and the sensing unit have the first comparative resistance;In the second mode, the sensing unit detects the operation
When object relative location changes, the operation object and the sensing unit have the second comparative resistance, the described first opposite resistance
Power and second comparative resistance difference.
Whether information processing method provided in an embodiment of the present invention and equipment, detection operation object meet the first default item
Part obtains the first testing result;Wherein, the operation object is can be detected and institute by the sensing unit of first equipment
State the object of the induction region relative position variation of sensing unit;When first testing result shows that the operation object meets
When first preset condition, adjust instruction is executed, the sensing unit is switched into second mode by first mode;Wherein,
In the first mode, when the sensing unit detects the operation object relative position variation, the operation object and institute
Stating sensing unit has the first comparative resistance;In the second mode, it is opposite to detect the operation object for the sensing unit
When change in location, the operation object and the sensing unit have the second comparative resistance, first comparative resistance and described
Second comparative resistance is different.Using the technical solution of the embodiment of the present invention, pass through the induction list to operation object and the first equipment
The change of comparative resistance between member, so that the user for holding the operation object feels the degree of roughness of contact surface
Become larger, to make induction region that papery sense of touch be presented, greatly improves the operating experience of user.
Description of the drawings
Fig. 1 is the flow diagram of the information processing method of the embodiment of the present invention one;
Fig. 2 is the flow diagram of the information processing method of the embodiment of the present invention two;
Fig. 3 is the flow diagram of the information processing method of the embodiment of the present invention three;
Fig. 4 is the flow diagram of the information processing method of the embodiment of the present invention four;
Fig. 5 is the flow diagram of the information processing method of the embodiment of the present invention five;
Fig. 6 is the flow diagram of the information processing method of the embodiment of the present invention six;
Fig. 7 is the first composed structure schematic diagram of the first equipment of the embodiment of the present invention;
Fig. 8 is second of composed structure schematic diagram of the first equipment of the embodiment of the present invention;
Fig. 9 is the third composed structure schematic diagram of the first equipment of the embodiment of the present invention;
Figure 10 is the 4th kind of composed structure schematic diagram of the first equipment of the embodiment of the present invention.
Specific implementation mode
Below in conjunction with the accompanying drawings and specific embodiment the present invention is described in further detail.
Embodiment one
The embodiment of the present invention one provides a kind of information processing method, and described information processing method is applied to the first equipment
In.Fig. 1 is the flow diagram of the information processing method of the embodiment of the present invention one;As shown in Figure 1, described information processing method packet
It includes:
Step 101:Whether detection operation object meets the first preset condition, obtains the first testing result;Wherein, the behaviour
It is that can be detected to become with the induction region relative position of the sensing unit by the sensing unit of first equipment to make object
The object of change.
Here, there is first equipment sensing unit, the sensing unit to be able to detect that and the operation object phase
To change in location.Specifically, the sensing unit can be touch-control sensing unit;The operation object is the second equipment, described
Second equipment can be stylus, then in various embodiments of the invention below, second equipment or the operation object are equal
It refers to stylus, no longer illustrates below.Then the distance between the stylus and the touch-control sensing unit are certain
When within distance, the touch-control sensing unit is able to detect that the relative position between the stylus changes, that is, senses
The stylus, or even sense the operation of the stylus.Then in the present embodiment, first equipment is with touch-control sensing
The electronic equipment of unit, such as smart mobile phone, tablet computer;The touch-control sensing unit can be the smart mobile phone or put down
Touch screen on plate computer;Also, in the present embodiment, first equipment has matching operation object (i.e. touch-control
Pen), the stylus can carry out touch control operation on said first device.
Wherein, the sensing unit has the acquisition component for following First Principle, the operation object described with following
The collected component of First Principle.Such as when the sensing unit is capacitive touch screen, the acquisition component can be institute
State the metal layer in capacitive touch screen;Collected component in the operation object can be metal material;Then described first
Principle is:Metal material in metal layer and the operation object in the sensing unit forms coupled capacitor, based on composition
Coupled capacitor described in sensing unit detect the variation of electric current to sense the operation object, that is, detect and the behaviour
Make object relative location variation.
It is described to detect whether operation object meets the first preset condition in the present embodiment, including:Described first is detected to set
Whether the relativeness of standby and described second equipment meets preset condition;Wherein, the detection first equipment and described the
Whether the relativeness of two equipment, which meets preset condition, has numerous embodiments:
The first embodiment is:Whether the opposite receiving relationship for detecting first equipment and second equipment meets
First condition.
Second of embodiment be:Detect the induction region generation of the whether relatively described sensing unit of second equipment
Relative position changes.
The third embodiment is:Detect induction region place of the second equipment direction with the sensing unit
Whether the angle between plane meets default angular range.
Certainly, whether the relativeness that first equipment and second equipment are detected described in the embodiment of the present invention is full
Sufficient preset condition is not limited to above-mentioned three kinds of embodiments.
Specifically, when whether the relativeness of the detection first equipment and second equipment meets preset condition
When using the first above-mentioned embodiment, storage space, second equipment (i.e. stylus) are provided in first equipment
It can store into the storage space;Then in the present embodiment, it is accommodated in first equipment when detecting second equipment
When, determine that the opposite receiving relationship of first equipment and second equipment is unsatisfactory for first condition;When detecting described
When two equipment are not accommodated in first equipment, the opposite receiving relationship of first equipment and second equipment is determined
Meet first condition.It is able to detect that second equipment is specifically, may be provided at the storage space of first equipment
The sensor of no receiving, such as action sensor, range sensor.Described in being provided with when the storage space of first equipment
When action sensor, the direction of action of second equipment can be detected by the action sensor, when the direction of action
When being directed toward inside the storage space, determine that second equipment is accommodated in the storage space, it is determined that be unsatisfactory for first
Condition;When the direction of action is directed toward outside the storage space, determine that second equipment is not received by the storage space
It receives.When the storage space of first equipment is provided with the range sensor, can be detected by the range sensor
Distance determines whether second equipment is accommodated in the storage space.
When whether the relativeness of the detection first equipment and second equipment meets preset condition using upper
When stating second of embodiment, the sensing unit of first equipment is able to detect that the second equipment within certain distance;One
Planting embodiment is:When the induction region of the sensing unit of first equipment detects second equipment, it may be determined that institute
The induction region for stating the second equipment and first equipment is separated by a certain distance, and then determines first equipment and described second
The relativeness of equipment meets preset condition;Conversely, when the induction region of the sensing unit of first equipment does not detect
When second equipment, it may be determined that second equipment is more than a spacing at a distance from the induction region of first equipment
From, and then determine that the relativeness of first equipment and second equipment is unsatisfactory for preset condition, in another embodiment party
Formula is that the induction region of the sensing unit of first equipment detects second equipment, but is set based on described second
Standby movement, the distance between second equipment and the induction region of first equipment are changing;When second equipment
The distance between induction region of first equipment becomes hour, determines second equipment close to first equipment
Induction region, and then determine that the relativeness of first equipment and second equipment meets preset condition;When described
When the distance between the induction region of two equipment and first equipment becomes larger, determine second equipment far from described the
The induction region of one equipment, and then determine that the relativeness of first equipment and second equipment is unsatisfactory for preset condition.
Wherein, the sensing unit can be touch-control sensing unit, i.e. touch screen;The sensing unit can also be first equipment
Camera, the induction region of the camera and first equipment is in same level, then first equipment can lead to
The size for second equipment crossed in the image of the camera acquisition determines that second equipment is sent out with the induction region
Raw relative position variation.
When whether the relativeness of the detection first equipment and second equipment meets preset condition using upper
When stating the third embodiment, specifically, first equipment is provided with camera, the camera and first equipment
Induction region is in the same plane;Then by the camera collection image, based on second equipment in described image
Position and orientation can determine the angle of second equipment and plane where the induction region;When the angle is in default angle
When range (between such as 60 ° to 90 °), it may be determined that second equipment (i.e. stylus) is likely to be at the writing state that waits for, and then really
The relativeness of fixed first equipment and second equipment meets preset condition;When the angle is not in the angular range
When, it may be determined that second equipment (i.e. stylus) can not possibly be in the writing state that waits for, and then determine first equipment and institute
The relativeness for stating the second equipment is unsatisfactory for preset condition.
Step 102:When first testing result shows that the operation object meets first preset condition, execute
The sensing unit is switched to second mode by adjust instruction by first mode;Wherein, in the first mode, the sense
When unit being answered to detect the operation object relative position variation, the operation object and the sensing unit have the first opposite resistance
Power;In the second mode, when the sensing unit detects the operation object relative position variation, the operation object and
The sensing unit has the second comparative resistance, first comparative resistance and second comparative resistance difference.
Here, the sensing unit is switched to second mode by the execution adjust instruction by first mode, including:It holds
Row adjust instruction adjusts the resistance coefficient of the induction region;Alternatively, executing adjust instruction, the resistance of the induction region is maintained
Force coefficient is constant, adjusts the comparative resistance between the sensing unit and the operation object.
In the present embodiment, the resistance coefficient of the adjustment induction region is specially the resistance for increasing the induction region
Coefficient;Correspondingly, in this step, when first equipment detects the input operation of the touch input equipment, described the
One comparative resistance is less than second comparative resistance.Wherein, the resistance coefficient for increasing the induction region can pass through electrostatic
Effect is realized.Specifically, the outermost layer of the induction region of the sensing unit is glass, two layers of material is accompanied by the glassine paper
Material, one layer is conductive layer, and another layer is insulating layer, and the insulating layer is located at outermost layer.When the operation object and the insulation
When layer contact, and when first equipment switches to the second mode, electric signal passes through the conductive layer, the operation pair
Opposite polarity charge inducing will be generated as in, the frictional force between the operation object and the sensing unit will receive described
The influence of the interaction force of charge inducing and increase so that it is described when first equipment switches under the second mode
Frictional force between operation object and the sensing unit increases namely the between the operation object and the sensing unit
Two comparative resistances increase, so that the user for holding the operation object feels that the degree of roughness of contact surface becomes larger, from
And papery sense of touch is presented.
In addition, described maintain the constant resistance coefficient of the induction region, the adjustment sensing unit and the operation pair
Comparative resistance as between can specifically be realized by making the induction region that vibrations occur.Specifically, one kind is achieved in that:With
The frequency (such as 20kHz-40kHz) of ultrasonic wave shakes the induction region so that vertical tremor occurs for the induction region.It is another
Kind is achieved in that using piezoelectric effect, and flexural piezoelectric element is set under the induction region;When flexural piezoelectric member
Part receives the trigger action of the operation object thus when pressure becomes larger, and the flexural piezoelectric element generates vibrations, to band
Vertical tremor occurs for the dynamic induction region.Certainly, the realization method that the induction region shakes is made to be not limited to above-mentioned two
Kind realization method.Wherein, when the sensing unit switches to the second mode, i.e., after the described induction region shakes,
Hold it is smooth when the operation feeling of the user of the operation object is in first mode unlike the sensing unit, due to described
The vibrations of induction region, the second comparative resistance between the operation object and the sensing unit increase, and the user is feeling
The degree of roughness that contact surface is perceived in feel becomes larger, and user's perceptual image is made to be operated on paper generally.
Using the technical solution of the embodiment of the present invention, pass through the phase between operation object and the sensing unit of the first equipment
Change to resistance, so that the user for holding the operation object feels that the degree of roughness of contact surface becomes larger, to
Make induction region that papery sense of touch be presented, greatly improves the operating experience of user.
Embodiment two
The embodiment of the present invention additionally provides a kind of information processing method, and described information processing method is applied to the first equipment
In.Fig. 2 is the flow diagram of the information processing method of the embodiment of the present invention two;As shown in Fig. 2, shown information processing method packet
It includes:
Step 201:Detect whether the operation object meets the first default item by the collecting unit of first equipment
Part obtains the first testing result;Wherein, the operation object is can be detected and institute by the sensing unit of first equipment
State the object of the induction region relative position variation of sensing unit.
Here, there is first equipment sensing unit, the sensing unit to be able to detect that and the operation object phase
To change in location.Specifically, the sensing unit can be touch-control sensing unit;The operation object is the second equipment, described
Second equipment can be stylus, then in various embodiments of the invention below, second equipment or the operation object are equal
It refers to stylus, no longer illustrates below.Then the distance between the stylus and the touch-control sensing unit are certain
When within distance, the touch-control sensing unit is able to detect that the relative position between the stylus changes, that is, senses
The stylus, or even sense the operation of the stylus.Then in the present embodiment, first equipment is with touch-control sensing
The electronic equipment of unit, such as smart mobile phone, tablet computer;The touch-control sensing unit can be the smart mobile phone or put down
Touch screen on plate computer;Also, in the present embodiment, first equipment has matching operation object (i.e. touch-control
Pen), the stylus can carry out touch control operation on said first device.
Wherein, the sensing unit has the acquisition component for following First Principle, the operation object described with following
The collected component of First Principle.Such as when the sensing unit is capacitive touch screen, the acquisition component can be institute
State the metal layer in capacitive touch screen;Collected component in the operation object can be metal material;Then described first
Principle is:Metal material in metal layer and the operation object in the sensing unit forms coupled capacitor, based on composition
Coupled capacitor described in sensing unit detect the variation of electric current to sense the operation object, that is, detect and the behaviour
Make object relative location variation.
In the present embodiment, the collecting unit is set in first equipment, therefore first is set described in the present embodiment
It is standby itself to detect whether the operation object meets the first preset condition.Specifically, the collecting unit detection of first equipment
Whether the operation object, which meets the first preset condition, can be used three kinds of embodiments in embodiment one, i.e.,:Detect described
Whether the opposite receiving relationship of one equipment and second equipment meets first condition or whether detection second equipment is opposite
The relative position variation or detect the second equipment direction and the induction that the induction region of the sensing unit occurs
Whether the angle between plane where the induction region of unit meets default angular range;The specific reality of above-mentioned three kinds of realization methods
Existing process can be as described in embodiment one, and which is not described herein again.When using above-mentioned three kinds of embodiments, described in the present embodiment
Collecting unit can be respectively:Action sensor or range sensor, the sensing unit, image acquisition units are (i.e. and induction zone
Camera of the domain in same level).
Step 202:When first testing result shows that the operation object meets first preset condition, execute
Adjust instruction adjusts the resistance coefficient of the induction region, and the sensing unit is switched to second mode by first mode;Its
In, in the first mode, when the sensing unit detects the operation object relative position variation, the operation object and
The sensing unit has the first comparative resistance;In the second mode, the sensing unit detects the operation object phase
When to change in location, the operation object and the sensing unit have the second comparative resistance, first comparative resistance and institute
State the second comparative resistance difference.
Here, the sensing unit is switched to second mode by the execution adjust instruction by first mode, including:It holds
Row adjust instruction adjusts the resistance coefficient of the induction region;Alternatively, executing adjust instruction, the resistance of the induction region is maintained
Force coefficient is constant, adjusts the comparative resistance between the sensing unit and the operation object.
In the present embodiment, the resistance coefficient of the adjustment induction region is specially the resistance for increasing the induction region
Coefficient;Correspondingly, in this step, when first equipment detects the input operation of the touch input equipment, described the
One comparative resistance is less than second comparative resistance.Wherein, the resistance coefficient for increasing the induction region can pass through electrostatic
Effect is realized.Specifically, the outermost layer of the induction region of the sensing unit is glass, two layers of material is accompanied by the glassine paper
Material, one layer is conductive layer, and another layer is insulating layer, and the insulating layer is located at outermost layer.When the operation object and the insulation
When layer contact, and when first equipment switches to the second mode, electric signal passes through the conductive layer, the operation pair
Opposite polarity charge inducing will be generated as in, the frictional force between the operation object and the sensing unit will receive described
The influence of the interaction force of charge inducing and increase so that it is described when first equipment switches under the second mode
Frictional force between operation object and the sensing unit increases namely the between the operation object and the sensing unit
Two comparative resistances increase, so that the user for holding the operation object feels that the degree of roughness of contact surface becomes larger, make
User's perceptual image operates generally on paper.
In addition, described maintain the constant resistance coefficient of the induction region, the adjustment sensing unit and the operation pair
Comparative resistance as between can specifically be realized by making the induction region that vibrations occur.Specifically, one kind is achieved in that:With
The frequency (such as 20kHz-40kHz) of ultrasonic wave shakes the induction region so that vertical tremor occurs for the induction region.It is another
Kind is achieved in that using piezoelectric effect, and flexural piezoelectric element is set under the induction region;When flexural piezoelectric member
Part receives the trigger action of the operation object thus when pressure becomes larger, and the flexural piezoelectric element generates vibrations, to band
Vertical tremor occurs for the dynamic induction region.Certainly, the realization method that the induction region shakes is made to be not limited to above-mentioned two
Kind realization method.Wherein, when the sensing unit switches to the second mode, i.e., after the described induction region shakes,
Hold it is smooth when the operation feeling of the user of the operation object is in first mode unlike the sensing unit, due to described
The vibrations of induction region, the second comparative resistance between the operation object and the sensing unit increase, and the user is feeling
The degree of roughness that contact surface is perceived in feel becomes larger, to which papery sense of touch be presented.
Using the technical solution of the embodiment of the present invention, pass through the phase between operation object and the sensing unit of the first equipment
Change to resistance, so that the user for holding the operation object feels that the degree of roughness of contact surface becomes larger, to
Make induction region that papery sense of touch be presented, greatly improves the operating experience of user.
Embodiment three
The embodiment of the present invention additionally provides a kind of information processing method, and described information processing method is applied to the first equipment
In;Operation object described in the present embodiment is the second equipment.Fig. 3 is the flow of the information processing method of the embodiment of the present invention three
Schematic diagram;As shown in figure 3, shown information processing method includes:
Step 301:It is grasped described in the Data Detection of the operation object received by the receiving unit of first equipment
It opposes and likes the first preset condition of no satisfaction, obtain the first testing result.
Here, there is first equipment sensing unit, the sensing unit to be able to detect that and the operation object phase
To change in location.Specifically, the sensing unit can be touch-control sensing unit;The operation object is the second equipment, described
Second equipment can be stylus, then in various embodiments of the invention below, second equipment or the operation object are equal
It refers to stylus, no longer illustrates below.Then the distance between the stylus and the touch-control sensing unit are certain
When within distance, the touch-control sensing unit is able to detect that the relative position between the stylus changes, that is, senses
The stylus, or even sense the operation of the stylus.Then in the present embodiment, first equipment is with touch-control sensing
The electronic equipment of unit, such as smart mobile phone, tablet computer;The touch-control sensing unit can be the smart mobile phone or put down
Touch screen on plate computer;Also, in the present embodiment, first equipment has matching operation object (i.e. touch-control
Pen), the stylus can carry out touch control operation on said first device.
Wherein, the sensing unit has the acquisition component for following First Principle, the operation object described with following
The collected component of First Principle.Such as when the sensing unit is capacitive touch screen, the acquisition component can be institute
State the metal layer in capacitive touch screen;Collected component in the operation object can be metal material;Then described first
Principle is:Metal material in metal layer and the operation object in the sensing unit forms coupled capacitor, based on composition
Coupled capacitor described in sensing unit detect the variation of electric current to sense the operation object, that is, detect and the behaviour
Make object relative location variation.
It is grasped described in the Data Detection for the operation object that the present embodiment is received by the receiving unit of first equipment
It opposes and likes the first preset condition of no satisfaction.Wherein, second equipment is provided with detection unit and transmission unit, the detection
Unit is used for detection data, and the data are specifically used for characterizing whether second equipment meets second condition;The transmission is single
Member by the data that the detection unit detects for being sent to the first equipment.Specifically, the transmission unit of second equipment
Receiving unit with first equipment can be transmission antenna and reception antenna based on wireless radio frequency transmission technology, the nothing
Line radio frequency transmission technology includes but not limited to Bluetooth transfer techniques or close range wireless communication (NFC) transmission technology.Wherein, described
The detection unit of second equipment can be specifically pressure sensor, and the pressure sensor may be disposed in second equipment often
At grip;When the data that the receiving unit of first equipment receives reach first threshold, it may be determined that described second
Equipment is held by user, and then determines that the operation object meets the first preset condition;When the receiving unit of first equipment
The data received is when reaching the first threshold, it may be determined that second equipment is not held by user, and then described in determination
Operation object is unsatisfactory for the first preset condition.
Step 302:When first testing result shows that the operation object meets first preset condition, execute
Adjust instruction maintains the resistance coefficient of the induction region constant, adjusts between the sensing unit and the operation object
The sensing unit is switched to second mode by comparative resistance by first mode;Wherein, in the first mode, the sense
When unit being answered to detect the operation object relative position variation, the operation object and the sensing unit have the first opposite resistance
Power;In the second mode, when the sensing unit detects the operation object relative position variation, the operation object and
The sensing unit has the second comparative resistance, first comparative resistance and second comparative resistance difference.
Here, the sensing unit is switched to second mode by the execution adjust instruction by first mode, including:It holds
Row adjust instruction adjusts the resistance coefficient of the induction region;Alternatively, executing adjust instruction, the resistance of the induction region is maintained
Force coefficient is constant, adjusts the comparative resistance between the sensing unit and the operation object.
In the present embodiment, the resistance coefficient of the adjustment induction region is specially the resistance for increasing the induction region
Coefficient;Correspondingly, in this step, when first equipment detects the input operation of the touch input equipment, described the
One comparative resistance is less than second comparative resistance.Wherein, the resistance coefficient for increasing the induction region can pass through electrostatic
Effect is realized.Specifically, the outermost layer of the induction region of the sensing unit is glass, two layers of material is accompanied by the glassine paper
Material, one layer is conductive layer, and another layer is insulating layer, and the insulating layer is located at outermost layer.When the operation object and the insulation
When layer contact, and when first equipment switches to the second mode, electric signal passes through the conductive layer, the operation pair
Opposite polarity charge inducing will be generated as in, the frictional force between the operation object and the sensing unit will receive described
The influence of the interaction force of charge inducing and increase so that it is described when first equipment switches under the second mode
Frictional force between operation object and the sensing unit increases namely the between the operation object and the sensing unit
Two comparative resistances increase, so that the user for holding the operation object feels that the degree of roughness of contact surface becomes larger, from
And papery sense of touch is presented.
In addition, described maintain the constant resistance coefficient of the induction region, the adjustment sensing unit and the operation pair
Comparative resistance as between can specifically be realized by making the induction region that vibrations occur.Specifically, one kind is achieved in that:With
The frequency (such as 20kHz-40kHz) of ultrasonic wave shakes the induction region so that vertical tremor occurs for the induction region.It is another
Kind is achieved in that using piezoelectric effect, and flexural piezoelectric element is set under the induction region;When flexural piezoelectric member
Part receives the trigger action of the operation object thus when pressure becomes larger, and the flexural piezoelectric element generates vibrations, to band
Vertical tremor occurs for the dynamic induction region.Certainly, the realization method that the induction region shakes is made to be not limited to above-mentioned two
Kind realization method.Wherein, when the sensing unit switches to the second mode, i.e., after the described induction region shakes,
Hold it is smooth when the operation feeling of the user of the operation object is in first mode unlike the sensing unit, due to described
The vibrations of induction region, the second comparative resistance between the operation object and the sensing unit increase, and the user is feeling
The degree of roughness that contact surface is perceived in feel becomes larger, and user's perceptual image is made to be operated on paper generally.
Using the technical solution of the embodiment of the present invention, pass through the phase between operation object and the sensing unit of the first equipment
Change to resistance, so that the user for holding the operation object feels that the degree of roughness of contact surface becomes larger, to
Make induction region that papery sense of touch be presented, greatly improves the operating experience of user.
Example IV
The embodiment of the present invention additionally provides a kind of information processing method, and described information processing method is applied to the first equipment
In;Operation object described in the present embodiment is the second equipment.Fig. 4 is the flow of the information processing method of the embodiment of the present invention four
Schematic diagram;As shown in figure 4, shown information processing method includes:
Step 401:Whether the relativeness for detecting first equipment and second equipment meets preset condition, obtains
First testing result.
Here, there is first equipment sensing unit, the sensing unit to be able to detect that and the second equipment phase
To change in location.Specifically, the sensing unit can be touch-control sensing unit;The operation object is the second equipment, described
Second equipment can be stylus.Then the distance between the stylus and the touch-control sensing unit are within certain distance
When, the touch-control sensing unit is able to detect that the relative position between the stylus changes, that is, senses the touch-control
Pen, or even sense the operation of the stylus.Then in the present embodiment, first equipment is the electricity with touch-control sensing unit
Sub- equipment, such as smart mobile phone, tablet computer;The touch-control sensing unit can be on the smart mobile phone or tablet computer
Touch screen;Also, in the present embodiment, first equipment has matching operation object (i.e. stylus), described
Stylus can carry out touch control operation on said first device.
Wherein, the sensing unit has the acquisition component for following First Principle, second equipment described with following
The collected component of First Principle.Such as when the sensing unit is capacitive touch screen, the acquisition component can be institute
State the metal layer in capacitive touch screen;Collected component in second equipment can be metal material;Then described first
Principle is:Metal material in metal layer and second equipment in the sensing unit forms coupled capacitor, based on composition
Coupled capacitor described in sensing unit detect the variation of electric current to sense second equipment, that is, detect and described
Two equipment relative positions change.
In the present embodiment, whether the relativeness of the detection first equipment and second equipment meets default item
Part has numerous embodiments:
The first embodiment is:Whether the opposite receiving relationship for detecting first equipment and second equipment meets
First condition.
Second of embodiment be:Detect the induction region generation of the whether relatively described sensing unit of second equipment
Relative position changes.
The third embodiment is:Detect induction region place of the second equipment direction with the sensing unit
Whether the angle between plane meets default angular range.
Certainly, whether the relativeness that first equipment and second equipment are detected described in the embodiment of the present invention is full
Sufficient preset condition is not limited to above-mentioned three kinds of embodiments.
Specifically, when whether the relativeness of the detection first equipment and second equipment meets preset condition
When using the first above-mentioned embodiment, storage space, second equipment (i.e. stylus) are provided in first equipment
It can store into the storage space;Then in the present embodiment, it is accommodated in first equipment when detecting second equipment
When, determine that the opposite receiving relationship of first equipment and second equipment is unsatisfactory for first condition;When detecting described
When two equipment are not accommodated in first equipment, the opposite receiving relationship of first equipment and second equipment is determined
Meet first condition.It is able to detect that second equipment is specifically, may be provided at the storage space of first equipment
The sensor of no receiving, such as action sensor, range sensor.Described in being provided with when the storage space of first equipment
When action sensor, the direction of action of second equipment can be detected by the action sensor, when the direction of action
When being directed toward inside the storage space, determine that second equipment is accommodated in the storage space, it is determined that be unsatisfactory for first
Condition;When the direction of action is directed toward outside the storage space, determine that second equipment is not received by the storage space
It receives.When the storage space of first equipment is provided with the range sensor, can be detected by the range sensor
Distance determines whether second equipment is accommodated in the storage space.
When whether the relativeness of the detection first equipment and second equipment meets preset condition using upper
When stating second of embodiment, the sensing unit of first equipment is able to detect that the second equipment within certain distance;One
Planting embodiment is:When the induction region of the sensing unit of first equipment detects second equipment, it may be determined that institute
The induction region for stating the second equipment and first equipment is separated by a certain distance, and then determines first equipment and described second
The relativeness of equipment meets preset condition;Conversely, when the induction region of the sensing unit of first equipment does not detect
When second equipment, it may be determined that second equipment is more than a spacing at a distance from the induction region of first equipment
From, and then determine that the relativeness of first equipment and second equipment is unsatisfactory for preset condition, in another embodiment party
Formula is that the induction region of the sensing unit of first equipment detects second equipment, but is set based on described second
Standby movement, the distance between second equipment and the induction region of first equipment are changing;When second equipment
The distance between induction region of first equipment becomes hour, determines second equipment close to first equipment
Induction region, and then determine that the relativeness of first equipment and second equipment meets preset condition;When described
When the distance between the induction region of two equipment and first equipment becomes larger, determine second equipment far from described the
The induction region of one equipment, and then determine that the relativeness of first equipment and second equipment is unsatisfactory for preset condition.
Wherein, the sensing unit can be touch-control sensing unit, i.e. touch screen;The sensing unit can also be first equipment
Camera, the induction region of the camera and first equipment is in same level, then first equipment can lead to
The size for second equipment crossed in the image of the camera acquisition determines that second equipment is sent out with the induction region
Raw relative position variation.
When whether the relativeness of the detection first equipment and second equipment meets preset condition using upper
When stating the third embodiment, specifically, first equipment is provided with camera, the camera and first equipment
Induction region is in the same plane;Then by the camera collection image, based on second equipment in described image
Position and orientation can determine the angle of second equipment and plane where the induction region;When the angle is in default angle
When range (between such as 60 ° to 90 °), it may be determined that second equipment (i.e. stylus) is likely to be at the writing state that waits for, and then really
The relativeness of fixed first equipment and second equipment meets preset condition;When the angle is not in the angular range
When, it may be determined that second equipment (i.e. stylus) can not possibly be in the writing state that waits for, and then determine first equipment and institute
The relativeness for stating the second equipment is unsatisfactory for preset condition.
Step 402:When first testing result shows that the relativeness of first equipment and second equipment is full
When sufficient preset condition, adjust instruction is executed, the sensing unit is switched into second mode by first mode;Wherein, described
Under first mode, when the sensing unit detects the operation object relative position variation, the operation object and the induction
Unit has the first comparative resistance;In the second mode, the sensing unit detects the operation object relative position and becomes
When change, the operation object and the sensing unit have the second comparative resistance, first comparative resistance and second phase
To resistance difference.
Here, the sensing unit is switched to second mode by the execution adjust instruction by first mode, including:It holds
Row adjust instruction adjusts the resistance coefficient of the induction region;Alternatively, executing adjust instruction, the resistance of the induction region is maintained
Force coefficient is constant, adjusts the comparative resistance between the sensing unit and the operation object.
In the present embodiment, the resistance coefficient of the adjustment induction region is specially the resistance for increasing the induction region
Coefficient;Correspondingly, in this step, when first equipment detects the input operation of the touch input equipment, described the
One comparative resistance is less than second comparative resistance.Wherein, the resistance coefficient for increasing the induction region can pass through electrostatic
Effect is realized.Specifically, the outermost layer of the induction region of the sensing unit is glass, two layers of material is accompanied by the glassine paper
Material, one layer is conductive layer, and another layer is insulating layer, and the insulating layer is located at outermost layer.When the operation object and the insulation
When layer contact, and when first equipment switches to the second mode, electric signal passes through the conductive layer, the operation pair
Opposite polarity charge inducing will be generated as in, the frictional force between the operation object and the sensing unit will receive described
The influence of the interaction force of charge inducing and increase so that it is described when first equipment switches under the second mode
Frictional force between operation object and the sensing unit increases namely the between the operation object and the sensing unit
Two comparative resistances increase, so that the user for holding the operation object feels that the degree of roughness of contact surface becomes larger, from
And papery sense of touch is presented.
In addition, described maintain the constant resistance coefficient of the induction region, the adjustment sensing unit and the operation pair
Comparative resistance as between can specifically be realized by making the induction region that vibrations occur.Specifically, one kind is achieved in that:With
The frequency (such as 20kHz-40kHz) of ultrasonic wave shakes the induction region so that vertical tremor occurs for the induction region.It is another
Kind is achieved in that using piezoelectric effect, and flexural piezoelectric element is set under the induction region;When flexural piezoelectric member
Part receives the trigger action of the operation object thus when pressure becomes larger, and the flexural piezoelectric element generates vibrations, to band
Vertical tremor occurs for the dynamic induction region.Certainly, the realization method that the induction region shakes is made to be not limited to above-mentioned two
Kind realization method.Wherein, when the sensing unit switches to the second mode, i.e., after the described induction region shakes,
Hold it is smooth when the operation feeling of the user of the operation object is in first mode unlike the sensing unit, due to described
The vibrations of induction region, the second comparative resistance between the operation object and the sensing unit increase, and the user is feeling
The degree of roughness that contact surface is perceived in feel becomes larger, and user's perceptual image is made to be operated on paper generally.
Using the technical solution of the embodiment of the present invention, pass through the phase between operation object and the sensing unit of the first equipment
Change to resistance, so that the user for holding the operation object feels that the degree of roughness of contact surface becomes larger, to
Make induction region that papery sense of touch be presented, greatly improves the operating experience of user.
Embodiment five
Based on embodiment one, the embodiment of the present invention additionally provides a kind of information processing method, and described information processing method is answered
For in the first equipment.Fig. 5 is the flow diagram of the information processing method of the embodiment of the present invention five;As shown in figure 5, the letter
Ceasing processing method includes:
Step 501:Whether detection operation object meets the first preset condition, obtains the first testing result;Wherein, the behaviour
It is that can be detected to become with the induction region relative position of the sensing unit by the sensing unit of first equipment to make object
The object of change.
Here, there is first equipment sensing unit, the sensing unit to be able to detect that and the operation object phase
To change in location.Specifically, the sensing unit can be touch-control sensing unit;The operation object is the second equipment, described
Second equipment can be stylus, then in various embodiments of the invention below, second equipment or the operation object are equal
It refers to stylus, no longer illustrates below.Then the distance between the stylus and the touch-control sensing unit are certain
When within distance, the touch-control sensing unit is able to detect that the relative position between the stylus changes, that is, senses
The stylus, or even sense the operation of the stylus.Then in the present embodiment, first equipment is with touch-control sensing
The electronic equipment of unit, such as smart mobile phone, tablet computer;The touch-control sensing unit can be the smart mobile phone or put down
Touch screen on plate computer;Also, in the present embodiment, first equipment has matching operation object (i.e. touch-control
Pen), the stylus can carry out touch control operation on said first device.
Wherein, the sensing unit has the acquisition component for following First Principle, the operation object described with following
The collected component of First Principle.Such as when the sensing unit is capacitive touch screen, the acquisition component can be institute
State the metal layer in capacitive touch screen;Collected component in the operation object can be metal material;Then described first
Principle is:Metal material in metal layer and the operation object in the sensing unit forms coupled capacitor, based on composition
Coupled capacitor described in sensing unit detect the variation of electric current to sense the operation object, that is, detect and the behaviour
Make object relative location variation.
It is described to detect whether operation object meets the first preset condition in the present embodiment, including:Described first is detected to set
Whether the relativeness of standby and described second equipment meets preset condition;Wherein, the detection first equipment and described the
Whether the relativeness of two equipment, which meets preset condition, has numerous embodiments:
The first embodiment is:Whether the opposite receiving relationship for detecting first equipment and second equipment meets
First condition.
Second of embodiment be:Detect the induction region generation of the whether relatively described sensing unit of second equipment
Relative position changes.
The third embodiment is:Detect induction region place of the second equipment direction with the sensing unit
Whether the angle between plane meets default angular range.
Certainly, whether the relativeness that first equipment and second equipment are detected described in the embodiment of the present invention is full
Sufficient preset condition is not limited to above-mentioned three kinds of embodiments.
Specifically, when whether the relativeness of the detection first equipment and second equipment meets preset condition
When using the first above-mentioned embodiment, storage space, second equipment (i.e. stylus) are provided in first equipment
It can store into the storage space;Then in the present embodiment, it is accommodated in first equipment when detecting second equipment
When, determine that the opposite receiving relationship of first equipment and second equipment is unsatisfactory for first condition;When detecting described
When two equipment are not accommodated in first equipment, the opposite receiving relationship of first equipment and second equipment is determined
Meet first condition.It is able to detect that second equipment is specifically, may be provided at the storage space of first equipment
The sensor of no receiving, such as action sensor, range sensor.Described in being provided with when the storage space of first equipment
When action sensor, the direction of action of second equipment can be detected by the action sensor, when the direction of action
When being directed toward inside the storage space, determine that second equipment is accommodated in the storage space, it is determined that be unsatisfactory for first
Condition;When the direction of action is directed toward outside the storage space, determine that second equipment is not received by the storage space
It receives.When the storage space of first equipment is provided with the range sensor, can be detected by the range sensor
Distance determines whether second equipment is accommodated in the storage space.
When whether the relativeness of the detection first equipment and second equipment meets preset condition using upper
When stating second of embodiment, the sensing unit of first equipment is able to detect that the second equipment within certain distance;One
Planting embodiment is:When the induction region of the sensing unit of first equipment detects second equipment, it may be determined that institute
The induction region for stating the second equipment and first equipment is separated by a certain distance, and then determines first equipment and described second
The relativeness of equipment meets preset condition;Conversely, when the induction region of the sensing unit of first equipment does not detect
When second equipment, it may be determined that second equipment is more than a spacing at a distance from the induction region of first equipment
From, and then determine that the relativeness of first equipment and second equipment is unsatisfactory for preset condition, in another embodiment party
Formula is that the induction region of the sensing unit of first equipment detects second equipment, but is set based on described second
Standby movement, the distance between second equipment and the induction region of first equipment are changing;When second equipment
The distance between induction region of first equipment becomes hour, determines second equipment close to first equipment
Induction region, and then determine that the relativeness of first equipment and second equipment meets preset condition;When described
When the distance between the induction region of two equipment and first equipment becomes larger, determine second equipment far from described the
The induction region of one equipment, and then determine that the relativeness of first equipment and second equipment is unsatisfactory for preset condition.
Wherein, the sensing unit can be touch-control sensing unit, i.e. touch screen;The sensing unit can also be first equipment
Camera, the induction region of the camera and first equipment is in same level, then first equipment can lead to
The size for second equipment crossed in the image of the camera acquisition determines that second equipment is sent out with the induction region
Raw relative position variation.
When whether the relativeness of the detection first equipment and second equipment meets preset condition using upper
When stating the third embodiment, specifically, first equipment is provided with camera, the camera and first equipment
Induction region is in the same plane;Then by the camera collection image, based on second equipment in described image
Position and orientation can determine the angle of second equipment and plane where the induction region;When the angle is in default angle
When range (between such as 60 ° to 90 °), it may be determined that second equipment (i.e. stylus) is likely to be at the writing state that waits for, and then really
The relativeness of fixed first equipment and second equipment meets preset condition;When the angle is not in the angular range
When, it may be determined that second equipment (i.e. stylus) can not possibly be in the writing state that waits for, and then determine first equipment and institute
The relativeness for stating the second equipment is unsatisfactory for preset condition.
Step 502:When first testing result shows that the operation object meets first preset condition, execute
The sensing unit is switched to second mode by first mode, and generated and the second comparative resistance phase by adjust instruction
Matched first interface, and show first interface in predeterminable area output;Wherein, in the first mode, the sense
When unit being answered to detect the operation object relative position variation, the operation object and the sensing unit have the first opposite resistance
Power;In the second mode, when the sensing unit detects the operation object relative position variation, the operation object and
The sensing unit has the second comparative resistance, first comparative resistance and second comparative resistance difference.
Here, the sensing unit is switched to second mode by the execution adjust instruction by first mode, including:It holds
Row adjust instruction adjusts the resistance coefficient of the induction region;Alternatively, executing adjust instruction, the resistance of the induction region is maintained
Force coefficient is constant, adjusts the comparative resistance between the sensing unit and the operation object.
In the present embodiment, the resistance coefficient of the adjustment induction region is specially the resistance for increasing the induction region
Coefficient;Correspondingly, in this step, when first equipment detects the input operation of the touch input equipment, described the
One comparative resistance is less than second comparative resistance.Wherein, the resistance coefficient for increasing the induction region can pass through electrostatic
Effect is realized.Specifically, the outermost layer of the induction region of the sensing unit is glass, two layers of material is accompanied by the glassine paper
Material, one layer is conductive layer, and another layer is insulating layer, and the insulating layer is located at outermost layer.When the operation object and the insulation
When layer contact, and when first equipment switches to the second mode, electric signal passes through the conductive layer, the operation pair
Opposite polarity charge inducing will be generated as in, the frictional force between the operation object and the sensing unit will receive described
The influence of the interaction force of charge inducing and increase so that it is described when first equipment switches under the second mode
Frictional force between operation object and the sensing unit increases namely the between the operation object and the sensing unit
Two comparative resistances increase, so that the user for holding the operation object feels that the degree of roughness of contact surface becomes larger, from
And papery sense of touch is presented.
In addition, described maintain the constant resistance coefficient of the induction region, the adjustment sensing unit and the operation pair
Comparative resistance as between can specifically be realized by making the induction region that vibrations occur.Specifically, one kind is achieved in that:With
The frequency (such as 20kHz-40kHz) of ultrasonic wave shakes the induction region so that vertical tremor occurs for the induction region.It is another
Kind is achieved in that using piezoelectric effect, and flexural piezoelectric element is set under the induction region;When flexural piezoelectric member
Part receives the trigger action of the operation object thus when pressure becomes larger, and the flexural piezoelectric element generates vibrations, to band
Vertical tremor occurs for the dynamic induction region.Certainly, the realization method that the induction region shakes is made to be not limited to above-mentioned two
Kind realization method.Wherein, when the sensing unit switches to the second mode, i.e., after the described induction region shakes,
Hold it is smooth when the operation feeling of the user of the operation object is in first mode unlike the sensing unit, due to described
The vibrations of induction region, the second comparative resistance between the operation object and the sensing unit increase, and the user is feeling
The degree of roughness that contact surface is perceived in feel becomes larger, and user's perceptual image is made to be operated on paper generally.
In the present embodiment, when first equipment switches to second mode, generation matches with second comparative resistance
The first interface, the sense learning through practice phase referred to second comparative resistance that matches with second comparative resistance
Matching.Specifically, when first equipment switches to second mode, second comparative resistance is more than the described first opposite resistance
Power makes the user feel so that the user for holding the operation object feels that the degree of roughness of contact surface becomes larger
As the operation on paper, then first interface is the interface that papery display effect is presented.Specifically, it is aobvious to match the papery
The display parameters for showing the interface of effect, when first equipment switches to second mode, described in display parameters generation
First interface, and show first interface in predeterminable area output.Wherein, the predeterminable area can be first equipment
Whole display areas or part display area, i.e., described first interface be full screen window or wicket.
Using the technical solution of the embodiment of the present invention, pass through the phase between operation object and the sensing unit of the first equipment
Change to resistance, so that the user for holding the operation object feels that the degree of roughness of contact surface becomes larger, to
Make induction region that papery sense of touch be presented and make the display of predeterminable area that papery effect be presented, greatly improves the operating body of user
It tests and visual experience.
Embodiment six
The embodiment of the present invention additionally provides a kind of information processing method, and described information processing method is applied to the first equipment
In.Fig. 6 is the flow diagram of the information processing method of the embodiment of the present invention six;As shown in fig. 6, described information processing method packet
It includes:
Step 601:The described in the Data Detection of second equipment received by the receiving unit of first equipment
Whether two equipment meet the first preset condition, obtain the first testing result.
Here, there is first equipment sensing unit, the sensing unit to be able to detect that and the operation object phase
To change in location.Specifically, the sensing unit can be touch-control sensing unit;Second equipment can be stylus.Then
When the distance between second equipment and the touch-control sensing unit are within certain distance, the touch-control sensing unit can
It detects the relative position variation between second equipment, that is, senses second equipment, or even sense described the
The operation of two equipment.Then in the present embodiment, first equipment is the electronic equipment with touch-control sensing unit, such as intelligent hand
Machine, tablet computer etc.;The touch-control sensing unit can be the touch screen on the smart mobile phone or tablet computer;Also,
In the present embodiment, there is first equipment the second matching equipment, second equipment can be set described first
Standby upper carry out touch control operation.
Wherein, the sensing unit has the acquisition component for following First Principle, second equipment described with following
The collected component of First Principle.Such as when the sensing unit is capacitive touch screen, the acquisition component can be institute
State the metal layer in capacitive touch screen;Collected component in second equipment can be metal material;Then described first
Principle is:Metal material in metal layer and second equipment in the sensing unit forms coupled capacitor, based on composition
Coupled capacitor described in sensing unit detect the variation of electric current to sense second equipment, that is, detect and described
Two equipment relative positions change.
The described in the Data Detection for second equipment that the present embodiment is received by the receiving unit of first equipment
Whether two equipment meet the first preset condition.Wherein, second equipment is provided with detection unit and transmission unit, the detection
Unit is used for detection data, and the data are specifically used for characterizing whether second equipment meets second condition;The transmission is single
Member by the data that the detection unit detects for being sent to the first equipment.Specifically, the transmission unit of second equipment
Receiving unit with first equipment can be transmission antenna and reception antenna based on wireless radio frequency transmission technology, the nothing
Line radio frequency transmission technology includes but not limited to Bluetooth transfer techniques or close range wireless communication (NFC) transmission technology.Wherein, described
The detection unit of second equipment can be specifically pressure sensor, and the pressure sensor may be disposed in second equipment often
At grip;When the data that the receiving unit of first equipment receives reach first threshold, it may be determined that described second
Equipment is held by user, and then determines that second equipment meets the first preset condition;When the receiving unit of first equipment
The data received is when reaching the first threshold, it may be determined that second equipment is not held by user, and then described in determination
Second equipment is unsatisfactory for the first preset condition.
Step 602:When first testing result shows that second equipment meets first preset condition, pass through
The receiving unit obtains the identification parameter of second equipment.
In the present embodiment, the identification parameter of second equipment characterizes the type or model of second equipment;Described
The type of two equipment can be the type of the stylus with specific shape, such as stylus with pencil shape, with pen
The stylus of the shape even stylus etc. with writing brush shape.There is different types of second equipment different marks to join
Number.When first equipment shows that second equipment meets described first in advance by the first testing result that receiving unit obtains
If when condition, the identification parameter for obtaining second equipment is further received by the receiving unit.
Step 603:Adjust instruction is executed, described in the matched drag parameter adjustment of the identification parameter based on second equipment
The comparative resistance of second equipment and the sensing unit, so that the sensing unit switches to second mode by first mode;Its
In, in the first mode, when the sensing unit detects the second equipment relative position variation, the operation object and
The sensing unit has the first comparative resistance;In the second mode, the sensing unit detects the operation object phase
When to change in location, second equipment and the sensing unit have the second comparative resistance, and when first equipment detects
To the touch input equipment input operation when, first comparative resistance be less than second comparative resistance.
In the present embodiment, it is previously provided with the first data acquisition system in first equipment, is wrapped in first data acquisition system
Include the identification parameter of the second different equipment and corresponding drag parameter.When obtaining the identification parameter of second equipment, base
First data acquisition system is inquired in the identification parameter, obtains the corresponding drag parameter of the identification parameter, with according to
Drag parameter adjusts the comparative resistance of second equipment and the sensing unit.The present embodiment can be applied to following scene:When
It is when having the stylus of pencil shape that the identification parameter, which characterizes second equipment, and second equipment is set with described first
The second comparative resistance between standby sensing unit is the first numerical value;It is to have when the identification parameter characterizes second equipment
When the stylus of pen shape, the second comparative resistance between second equipment and the sensing unit of first equipment is the
Two numerical value;When it is to have the stylus of writing brush shape that the identification parameter, which characterizes second equipment, second equipment with
The second comparative resistance between the sensing unit of first equipment is third value.That is, the of different identification parameter
The second comparative resistance between two equipment and the sensing unit of first equipment is different so that when user's grip is different types of
The comparative resistance experienced when the second equipment is different, such as first numerical value is less than the second value and is less than the third
Operating experience when there is the stylus of pencil shape to carry out touch control operation for numerical value namely user's grip is the most smooth, Yong Huchi
The operating experience time for holding the stylus with pen shape is smooth, the operating body of stylus of user's grip with writing brush shape
It tests the most coarse.
Specifically, the sensing unit is switched into second mode by first mode, including:Execute adjust instruction, adjustment
The resistance coefficient of the induction region;Alternatively, executing adjust instruction, maintain the resistance coefficient of the induction region constant, adjusts
Comparative resistance between the sensing unit and the operation object.
In the present embodiment, the resistance coefficient of the adjustment induction region is specially the resistance for increasing the induction region
Coefficient;Correspondingly, in this step, when first equipment detects the input operation of the touch input equipment, described the
One comparative resistance is less than second comparative resistance.Wherein, the resistance coefficient for increasing the induction region can pass through electrostatic
Effect is realized.Specifically, the outermost layer of the induction region of the sensing unit is glass, two layers of material is accompanied by the glassine paper
Material, one layer is conductive layer, and another layer is insulating layer, and the insulating layer is located at outermost layer.When the operation object and the insulation
When layer contact, and when first equipment switches to the second mode, electric signal passes through the conductive layer, the operation pair
Opposite polarity charge inducing will be generated as in, the frictional force between the operation object and the sensing unit will receive described
The influence of the interaction force of charge inducing and increase so that it is described when first equipment switches under the second mode
Frictional force between operation object and the sensing unit increases namely the between the operation object and the sensing unit
Two comparative resistances increase, so that the user for holding the operation object feels that the degree of roughness of contact surface becomes larger, from
And papery sense of touch is presented.In the present embodiment, the matched drag parameter tune of the identification parameter based on second equipment
The comparative resistance of whole second equipment and the sensing unit specifically can be logical by being based on the matched drag parameter adjustment
The electric signal for crossing the conductive layer realizes, so that the user perceives and the identification parameter of second equipment is matched rubs
Resistance is wiped, and then user is made to perceive the matched roughness of identification parameter with second equipment.
In addition, described maintain the constant resistance coefficient of the induction region, the adjustment sensing unit and the operation pair
Comparative resistance as between can specifically be realized by making the induction region that vibrations occur.Specifically, one kind is achieved in that:With
The frequency (such as 20kHz-40kHz) of ultrasonic wave shakes the induction region so that vertical tremor occurs for the induction region.It is another
Kind is achieved in that using piezoelectric effect, flexural piezoelectric element is set under the induction region, the flexural piezoelectric element
It is connect with electrode;It is described when the flexural piezoelectric element, which receives the trigger action of the operation object, to become larger to pressure
Flexural piezoelectric element generates vibrations, to drive the induction region that vertical tremor occurs.Certainly, the induction region is made to occur
The realization method of vibrations is not limited to above two realization method.Wherein, when the sensing unit switches to the second mode,
After the i.e. described induction region shakes, the operation feeling of the user of the operation object is held unlike the sensing unit is in
It is smooth when first mode, due to the vibrations of the induction region, second between the operation object and the sensing unit
Comparative resistance increases, and the user becomes larger in the degree of roughness for sensuously perceiving contact surface, and user's perceptual image is made to exist
It is operated on paper general.In the present embodiment, the matched drag parameter adjustment of the identification parameter based on second equipment
The comparative resistance of second equipment and the sensing unit, a kind of embodiment can specifically pass through the frequency of the ultrasonic wave to match
Rate, which shakes the induction region, to be realized;Another embodiment can specifically pass through the telecommunications of the flexural piezoelectric element to match
Number frequency realize match with the matched drag parameter of identification parameter of second equipment so that the user perceives
Vibration amplitude, and then user is made to perceive the matched roughness of identification parameter with second equipment.
Another embodiment based on the present embodiment, the matched resistance ginseng of the identification parameter based on second equipment
When the comparative resistance of number adjustment second equipment and the sensing unit, further include:Mark ginseng based on second equipment
Number obtains and the matched trajectory parameters of the identification parameter, and the operation rail of second equipment is exported based on the trajectory parameters
Mark.
Here, the trajectory parameters can characterize the property parameters of the operation trace of second equipment, the operation rail
The property parameters of mark may include:The thickness of operation trace, operation trace pattern (whether solid line or dotted line with the arrow etc.
Deng), the color etc. of operation trace, different identification parameters can correspond to different trajectory parameters.For example, working as the identification parameter
It is when having the stylus of pencil shape to characterize second equipment, and corresponding operation trace can be trajectory parameters characterization
For solid line and operation trace that thickness is the first numerical value;It is with pen shape when the identification parameter characterizes second equipment
Stylus when, corresponding operation trace can be the operation rail that trajectory parameters are characterized as that solid line and thickness are second value
Mark;When it is to have the stylus of writing brush shape that the identification parameter, which characterizes second equipment, corresponding operation trace
It can be the operation trace that trajectory parameters are characterized as solid line and thickness is third value;Wherein, the first numerical value is more than second value,
Third value is more than second value, and third value is more than the first numerical value.
Another embodiment based on the present embodiment, the matched resistance ginseng of the identification parameter based on second equipment
When the comparative resistance of number adjustment second equipment and the sensing unit, further include:Mark ginseng based on second equipment
Number obtains and the matched display data of the identification parameter, second contact surface is generated based on the display data, in default output area
Domain exports the second contact surface.
Here, the display data can be the display data of different background picture;The background picture can be arbitrary
The picture of format.Different identification parameters can correspond to the display data of different background pictures.For example, working as the identification parameter table
It is when having the stylus of pencil shape to levy second equipment, and the background picture for the whatman with reticulate pattern that can be corresponding to it is shown
Registration evidence;When it is to have the stylus of pen shape that the identification parameter, which characterizes second equipment, the nothing that can be corresponding to it is appointed
The display data of the background picture of the writing paper of what lines;It is with writing brush shape when the identification parameter characterizes second equipment
When the stylus of shape, the display data of background picture etc. for the rice paper that can be corresponding to it.
Using the technical solution of the embodiment of the present invention, pass through the phase between operation object and the sensing unit of the first equipment
Change to resistance, so that the user for holding the operation object feels that the degree of roughness of contact surface becomes larger, to
Make induction region that papery sense of touch be presented and makes the display of predeterminable area that papery effect be presented;Also, the of different identification parameter
Two equipment make user have the degree of roughness for perceiving different contact surfaces, or different display effects is presented, and make user
With more true tactile experience or visual experience.
Embodiment seven
The embodiment of the present invention additionally provides a kind of equipment, and the equipment is the first equipment.Fig. 7 is the of the embodiment of the present invention
The first composed structure schematic diagram of one equipment;As shown in fig. 7, first equipment includes:Sensing unit 70, detection unit 71
With adjustment execution unit 72;Wherein,
The sensing unit 70, for detecting operation object;The operation object is can be by the sensing unit 70
Detect the object changed with the induction region relative position of the sensing unit 70;
The detection unit 71 obtains the first testing result for detecting whether operation object meets the first preset condition;
The adjustment execution unit 72, first testing result for being obtained when the detection unit 71 show described
When operation object meets first preset condition, adjust instruction is executed, the sensing unit 70 is switched to by first mode
Second mode;Wherein, in the first mode, when the sensing unit 70 detects the operation object relative position variation,
The operation object and the sensing unit 70 have the first comparative resistance;In the second mode, the sensing unit 70
When detecting the operation object relative position variation, the operation object and the sensing unit 70 have the second comparative resistance,
First comparative resistance and second comparative resistance difference.
Wherein, when first equipment detects the input operation of the touch input equipment, the described first opposite resistance
Power is less than second comparative resistance.
In the present embodiment, the operation object is the second equipment, and the sensing unit has the acquisition for following First Principle
Component, the operation object have the collected component for following the First Principle.
It will be appreciated by those skilled in the art that in the first equipment of the embodiment of the present invention each processing unit function, can join
Understand, each processing unit in the first equipment of the embodiment of the present invention according to the associated description of aforementioned information processing method, can pass through
It realizes the analog circuit of the function described in the embodiment of the present invention and realizes, it can also be by executing the work(described in the embodiment of the present invention
Can operation of the software on intelligent terminal and realize.
Embodiment eight
The embodiment of the present invention additionally provides a kind of equipment, and the equipment is the first equipment.Fig. 8 is the of the embodiment of the present invention
Second of composed structure schematic diagram of one equipment;As shown in figure 8, first equipment includes:Sensing unit 70, detection unit 71
With adjustment execution unit 72;The detection unit 71 is collecting unit 711;Wherein,
The sensing unit 70, for detecting operation object;The operation object is can be by the sensing unit 70
Detect the object changed with the induction region relative position of the sensing unit 70;
The collecting unit 711 obtains the first detection knot for detecting whether operation object meets the first preset condition
Fruit;
The adjustment execution unit 72, first testing result for being obtained when the collecting unit 711 show institute
When stating operation object and meeting first preset condition, adjust instruction is executed, the resistance coefficient of the induction region is adjusted, by institute
It states sensing unit 70 and second mode is switched to by first mode;Wherein, in the first mode, the sensing unit 70 detects
When the operation object relative position variation, the operation object and the sensing unit 70 have the first comparative resistance;Institute
It states under second mode, when the sensing unit 70 detects operation object relative position variation, the operation object and described
Sensing unit 70 has the second comparative resistance, first comparative resistance and second comparative resistance difference.
Wherein, when first equipment detects the input operation of the touch input equipment, the described first opposite resistance
Power is less than second comparative resistance.
In the present embodiment, the operation object is the second equipment, and the sensing unit has the acquisition for following First Principle
Component, the operation object have the collected component for following the First Principle.
In the present embodiment, the collecting unit 711 can be specifically action sensor or range sensor, for detecting
Whether the opposite receiving relationship for stating the first equipment and second equipment meets first condition;Specifically, in first equipment
It is provided with storage space, second equipment can be stored into the storage space.At the storage space of first equipment
It may be provided with the action sensor or range sensor;When the storage space of first equipment is provided with the action sensing
When device, the direction of action of second equipment can be detected by the action sensor, described in direction of action direction
When inside storage space, determine that second equipment is accommodated in the storage space, it is determined that be unsatisfactory for first condition;Work as institute
When stating outside the direction of action direction storage space, determine that second equipment is not stored by the storage space.When described
When the storage space of first equipment is provided with the range sensor, institute can be determined by the distance that the range sensor detects
State whether the second equipment is accommodated in the storage space.
The collecting unit 711 can also be that image acquisition units (such as camera), the camera are set with described first
Standby induction region is in the same plane;Then by the camera collection image, set based on described second in described image
Standby position and orientation can determine the angle of second equipment and plane where the induction region;When the angle is default
When angular range (between such as 60 ° to 90 °), it may be determined that second equipment is likely to be at the writing state that waits for, and then described in determination
The relativeness of first equipment and second equipment meets preset condition;It, can when the angle is not in the angular range
It determines that second equipment can not possibly be in waiting for writing state, and then determines the opposite of first equipment and second equipment
Relationship is unsatisfactory for preset condition.
It will be appreciated by those skilled in the art that in the first equipment of the embodiment of the present invention each processing unit function, can join
Understand, each processing unit in the first equipment of the embodiment of the present invention according to the associated description of aforementioned information processing method, can pass through
It realizes the analog circuit of the function described in the embodiment of the present invention and realizes, it can also be by executing the work(described in the embodiment of the present invention
Can operation of the software on intelligent terminal and realize.
Embodiment nine
The embodiment of the present invention additionally provides a kind of equipment, and the equipment is the first equipment.Fig. 9 is the of the embodiment of the present invention
The third composed structure schematic diagram of one equipment;As shown in figure 9,;First equipment includes:Sensing unit 70, detection unit
71 and adjustment execution unit 72;The detection unit 71 is receiving unit 712;Wherein,
The sensing unit 70, for detecting operation object;The operation object is can be by the sensing unit 70
Detect the object changed with the induction region relative position of the sensing unit 70;
Whether the receiving unit 712 is used for operation object described in the Data Detection of second equipment based on reception
Meet the first preset condition, obtains the first testing result;
The adjustment execution unit 72, first testing result for being obtained when the receiving unit 712 show institute
When stating operation object and meeting first preset condition, adjust instruction is executed, maintains the resistance coefficient of the induction region constant,
The comparative resistance between the sensing unit 70 and the operation object is adjusted, the sensing unit 70 is switched by first mode
To second mode;Wherein, in the first mode, the sensing unit 70 detects the operation object relative position variation
When, the operation object and the sensing unit 70 have the first comparative resistance;In the second mode, the sensing unit
When the 70 detection operation object relative positions change, the operation object and the sensing unit 70 have the second opposite resistance
Power, first comparative resistance and second comparative resistance difference.
Wherein, when first equipment detects the input operation of the touch input equipment, the described first opposite resistance
Power is less than second comparative resistance.
In the present embodiment, the operation object is the second equipment, and the sensing unit has the acquisition for following First Principle
Component, the operation object have the collected component for following the First Principle.
In the present embodiment, second equipment is provided with detection unit and transmission unit, and the detection unit is for detecting
Data, the data are specifically used for characterizing whether second equipment meets second condition;The transmission unit is used for will be described
The data that detection unit detects are sent to the first equipment.Specifically, the transmission unit of second equipment and described first is set
Standby receiving unit 712 can be transmission antenna and reception antenna based on wireless radio frequency transmission technology, and the less radio-frequency passes
Transferring technology includes but not limited to Bluetooth transfer techniques or close range wireless communication (NFC) transmission technology.Wherein, second equipment
Detection unit can be specifically pressure sensor, the pressure sensor may be disposed in second equipment and commonly hold
Place;When the data that the receiving unit of first equipment receives reach first threshold, it may be determined that second equipment by with
Family is held, and then determines that the operation object meets the first preset condition;It is received when the receiving unit of first equipment
Data is when reaching the first threshold, it may be determined that second equipment is not held by user, and then determines the operation object
It is unsatisfactory for the first preset condition.
It will be appreciated by those skilled in the art that in the first equipment of the embodiment of the present invention each processing unit function, can join
Understand, each processing unit in the first equipment of the embodiment of the present invention according to the associated description of aforementioned information processing method, can pass through
It realizes the analog circuit of the function described in the embodiment of the present invention and realizes, it can also be by executing the work(described in the embodiment of the present invention
Can operation of the software on intelligent terminal and realize.
Embodiment ten
The embodiment of the present invention additionally provides a kind of equipment, and the equipment is the first equipment.As shown in fig. 7, described first sets
It is standby to include:Sensing unit 70, detection unit 71 and adjustment execution unit 72;Wherein,
The sensing unit 70, for detecting operation object;The operation object is can be by the sensing unit 70
Detect the object changed with the induction region relative position of the sensing unit 70;
The detection unit 71, it is pre- whether the relativeness for detecting first equipment and second equipment meets
If condition;
The adjustment execution unit 72, first testing result for being obtained when the detection unit 71 show described
When operation object meets first preset condition, adjust instruction is executed, the sensing unit 70 is switched to by first mode
Second mode;Wherein, in the first mode, when the sensing unit 70 detects the operation object relative position variation,
The operation object and the sensing unit 70 have the first comparative resistance;In the second mode, the sensing unit 70
When detecting the operation object relative position variation, the operation object and the sensing unit 70 have the second comparative resistance,
First comparative resistance and second comparative resistance difference.
Wherein, when first equipment detects the input operation of the touch input equipment, the described first opposite resistance
Power is less than second comparative resistance.
In the present embodiment, the operation object is the second equipment, and the sensing unit has the acquisition for following First Principle
Component, the operation object have the collected component for following the First Principle.
Specifically, the detection unit 71, opposite accommodate for detecting first equipment and second equipment is closed
Whether system meets first condition;Alternatively, the phase that the induction region of detection second equipment sensing unit 70 relatively occurs
Whether second condition is met to change in location.
In another embodiment, the detection unit 71, be additionally operable to detect the second equipment direction with it is described
Whether the angle between plane where the induction region of sensing unit meets default angular range.
It will be appreciated by those skilled in the art that in the first equipment of the embodiment of the present invention each processing unit function, can join
Understand, each processing unit in the first equipment of the embodiment of the present invention according to the associated description of aforementioned information processing method, can pass through
It realizes the analog circuit of the function described in the embodiment of the present invention and realizes, it can also be by executing the work(described in the embodiment of the present invention
Can operation of the software on intelligent terminal and realize.
Embodiment 11
The embodiment of the present invention additionally provides a kind of equipment, and the equipment is the first equipment.Figure 10 is the embodiment of the present invention
4th kind of composed structure schematic diagram of the first equipment;As shown in Figure 10, first equipment includes:Sensing unit 70, detection are single
Member 71, adjustment execution unit 72 and display unit 73;Wherein,
The sensing unit 70, for detecting operation object;The operation object is can be by the sensing unit 70
Detect the object changed with the induction region relative position of the sensing unit 70;
The detection unit 71 obtains the first testing result for detecting whether operation object meets the first preset condition;
The adjustment execution unit 72, first testing result for being obtained when the detection unit 71 show described
When operation object meets first preset condition, adjust instruction is executed, the sensing unit 70 is switched to by first mode
Second mode;Wherein, in the first mode, when the sensing unit 70 detects the operation object relative position variation,
The operation object and the sensing unit 70 have the first comparative resistance;In the second mode, the sensing unit 70
When detecting the operation object relative position variation, the operation object and the sensing unit 70 have the second comparative resistance,
First comparative resistance and second comparative resistance difference;
The display unit 73, after switching to second mode by first mode for the sensing unit 70, generate with
The first interface that second comparative resistance matches, and show first interface in predeterminable area output.
Wherein, when first equipment detects the input operation of the touch input equipment, the described first opposite resistance
Power is less than second comparative resistance.
In the present embodiment, the operation object is the second equipment, and the sensing unit has the acquisition for following First Principle
Component, the operation object have the collected component for following the First Principle.
It will be appreciated by those skilled in the art that in the first equipment of the embodiment of the present invention each processing unit function, can join
Understand, each processing unit in the first equipment of the embodiment of the present invention according to the associated description of aforementioned information processing method, can pass through
It realizes the analog circuit of the function described in the embodiment of the present invention and realizes, it can also be by executing the work(described in the embodiment of the present invention
Can operation of the software on intelligent terminal and realize.
Embodiment 12
The embodiment of the present invention additionally provides a kind of equipment, and the equipment is the first equipment.As shown in figure 9, described first sets
It is standby to include:Sensing unit 70, detection unit 71, adjustment execution unit 72 and display unit 73;The detection unit 71 is specially
Receiving unit 712;Wherein,
The sensing unit 70, for detecting operation object;The operation object is can be by the sensing unit 70
Detect the object changed with the induction region relative position of the sensing unit 70;
Whether the receiving unit 712, the second equipment described in the Data Detection for second equipment of reception meet
First preset condition obtains the first testing result;It is additionally operable to obtain the identification parameter of second equipment;
The adjustment execution unit 72, first testing result for being obtained when the receiving unit 712 show institute
When stating operation object and meeting first preset condition, adjust instruction is executed, described the obtained based on the receiving unit 712
The matched drag parameter of identification parameter of two equipment adjusts the comparative resistance of second equipment and the sensing unit, so that institute
It states sensing unit 70 and second mode is switched to by first mode;Wherein, in the first mode, the sensing unit 70 detects
When the operation object relative position variation, the operation object and the sensing unit 70 have the first comparative resistance;Institute
It states under second mode, when the sensing unit 70 detects operation object relative position variation, the operation object and described
Sensing unit 70 has the second comparative resistance, and when detecting the input operation of the touch input equipment, and described first is opposite
Resistance is less than second comparative resistance;
In the present embodiment, the sensing unit has the acquisition component for following First Principle, and the operation object, which has, to be abided by
Follow the collected component of the First Principle.
Another embodiment of embodiment according to the present invention, first equipment further includes display unit, the display unit,
Described second is adjusted for identification parameter matched drag parameter of the adjustment execution unit 72 based on second equipment to set
When the comparative resistance of the standby and described sensing unit, the identification parameter acquisition based on second equipment is matched with the identification parameter
Trajectory parameters, and export based on the trajectory parameters operation trace of second equipment.
Another embodiment of embodiment according to the present invention, first equipment further includes display unit, the display unit,
Described second is adjusted for identification parameter matched drag parameter of the adjustment execution unit 72 based on second equipment to set
When the comparative resistance of the standby and described sensing unit, the identification parameter acquisition based on second equipment is matched with the identification parameter
Display data, second contact surface is generated based on the display data, in the default output area output second contact surface.
It will be appreciated by those skilled in the art that in the first equipment of the embodiment of the present invention each processing unit function, can join
Understand, each processing unit in the first equipment of the embodiment of the present invention according to the associated description of aforementioned information processing method, can pass through
It realizes the analog circuit of the function described in the embodiment of the present invention and realizes, it can also be by executing the work(described in the embodiment of the present invention
Can operation of the software on intelligent terminal and realize.
In the embodiment of the present invention seven to embodiment 12, the adjustment execution unit 72 of first equipment is in practical application
In, it can be by the central processing unit (CPU, Central Processing Unit) in first equipment, Digital Signal Processing
Device (DSP, Digital Signal Processor) or programmable gate array (FPGA, Field-Programmable Gate
Array it) realizes;The detection unit 71 of first equipment can be sensed in practical applications by the action in first equipment
Device or range sensor, image acquisition units (i.e. camera) or the reception antenna based on wireless radio frequency transmission technology are realized;Institute
The sensing unit 70 of the first equipment is stated, in practical applications, can be realized by the touch-control sensing screen of first equipment;Described first
The display unit 73 of equipment can be realized in practical applications by the display screen of first equipment.
It should be understood by those skilled in the art that, the embodiment of the present invention can be provided as method, system or computer program
Product.Therefore, the shape of hardware embodiment, software implementation or embodiment combining software and hardware aspects can be used in the present invention
Formula.Moreover, the present invention can be used can use storage in the computer that one or more wherein includes computer usable program code
The form for the computer program product implemented on medium (including but not limited to magnetic disk storage and optical memory etc.).
The present invention be with reference to according to the method for the embodiment of the present invention, the flow chart of equipment and computer program product and/or
Block diagram describes.It should be understood that each flow that can be realized by computer program instructions in flowchart and/or the block diagram and/or
The combination of flow and/or box in box and flowchart and/or the block diagram.These computer program instructions can be provided to arrive
All-purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices processor to generate one
Machine so that the instruction executed by computer or the processor of other programmable data processing devices generates flowing
The device for the function of being specified in one flow of journey figure or multiple flows and/or one box of block diagram or multiple boxes.
These computer program instructions, which may also be stored in, can guide computer or other programmable data processing devices with spy
Determine in the computer-readable memory that mode works so that instruction generation stored in the computer readable memory includes referring to
Enable the manufacture of device, the command device realize in one flow of flow chart or multiple flows and/or one box of block diagram or
The function of being specified in multiple boxes.
These computer program instructions also can be loaded onto a computer or other programmable data processing device so that count
Series of operation steps are executed on calculation machine or other programmable devices to generate computer implemented processing, in computer or
The instruction executed on other programmable devices is provided for realizing in one flow of flow chart or multiple flows and/or block diagram one
The step of function of being specified in a box or multiple boxes.
The foregoing is only a preferred embodiment of the present invention, is not intended to limit the scope of the present invention.
Claims (14)
1. a kind of information processing method is applied in the first equipment, the method includes:
Whether detection operation object meets the first preset condition, obtains the first testing result;Wherein, the operation object be can
The object changed with the induction region relative position of the sensing unit is detected by the sensing unit of first equipment;
When first testing result shows that the operation object meets first preset condition, adjust instruction is executed, it will
The sensing unit switches to second mode by first mode;Wherein, in the first mode, the sensing unit detects institute
When stating the variation of operation object relative position, the operation object and the sensing unit have the first comparative resistance;Described
Under two modes, when the sensing unit detects the operation object relative position variation, the operation object and the induction are single
Member has the second comparative resistance, first comparative resistance and second comparative resistance difference;
The sensing unit is under the first mode, and the corresponding induction region of the sensing unit has the first resistance system
Number;The sensing unit is under second mode, and the corresponding induction region of the sensing unit, which has, is different from first resistance
Second resistance coefficient of force coefficient;
It is described to detect whether operation object meets the first preset condition, including:Detect first equipment and the operation pair
Whether the relativeness of elephant meets preset condition.
2. according to the method described in claim 1, it is characterized in that, the operation object be the second equipment, the sensing unit
With the acquisition component for following First Principle, the operation object has the collected component for following the First Principle.
3. according to the method described in claim 2, it is characterized in that, described detect whether operation object meets the first default item
Part, including:
Whether the relativeness for detecting first equipment and second equipment meets preset condition.
4. according to the method described in claim 3, it is characterized in that, first equipment and second equipment of detecting
Whether relativeness meets preset condition, including:
Whether the opposite receiving relationship for detecting first equipment and second equipment meets first condition;Alternatively,
Detect the relative position variation that the induction region of the whether relatively described sensing unit of second equipment occurs.
5. according to the method described in claim 1, it is characterized in that, whether the detection operation object meets the first default item
Part, including:
Detect whether the operation object meets the first preset condition by the collecting unit of first equipment;Alternatively,
Whether operation object is full described in Data Detection by the operation object of the receiving unit reception of first equipment
The first preset condition of foot.
6. according to the method described in claim 1, it is characterized in that, the execution adjust instruction, by the sensing unit by
One pattern switching to second mode, including:
Adjust instruction is executed, the resistance coefficient of the induction region is adjusted;Alternatively,
Adjust instruction is executed, maintains the resistance coefficient of the induction region constant, adjusts the sensing unit and the operation pair
Comparative resistance as between.
7. according to the method described in claim 1, it is characterized in that, described switch to by the sensing unit by first mode
Two modes, including:
First equipment generates the first interface to match with second comparative resistance, and is exported in predeterminable area and show institute
State the first interface.
8. according to the method described in claim 1, it is characterized in that, when first equipment detects the defeated of the operation object
When entering to operate, first comparative resistance is less than second comparative resistance.
9. a kind of electronic equipment, the electronic equipment is the first electronic equipment;First electronic equipment includes:Sensing unit,
Detection unit and adjustment execution unit;Wherein,
The sensing unit, for detecting operation object;The operation object be can be detected by the sensing unit with
The object of the induction region relative position variation of the sensing unit;
The detection unit obtains the first testing result for detecting whether operation object meets the first preset condition;
The adjustment execution unit, first testing result for being obtained when the detection unit show the operation object
When meeting first preset condition, adjust instruction is executed, the sensing unit is switched into second mode by first mode;Its
In, in the first mode, when the sensing unit detects the operation object relative position variation, the operation object and
The sensing unit has the first comparative resistance;In the second mode, the sensing unit detects the operation object phase
When to change in location, the operation object and the sensing unit have the second comparative resistance, first comparative resistance and institute
State the second comparative resistance difference;The sensing unit is under the first mode, the corresponding induction region of the sensing unit
With resistance coefficient 1;The sensing unit is under second mode, and the corresponding induction region of the sensing unit has area
Not in the second resistance coefficient of the resistance coefficient 1;
Wherein, whether the detection unit, the relativeness for detecting first electronic equipment and the operation object are full
Sufficient preset condition.
10. electronic equipment according to claim 9, which is characterized in that the operation object is the second electronic equipment;It is described
Whether detection unit, the relativeness for detecting first electronic equipment and second electronic equipment meet default item
Part.
11. electronic equipment according to claim 10, which is characterized in that the detection unit, for detecting described first
Whether the opposite receiving relationship of electronic equipment and second electronic equipment meets first condition;Alternatively, detection second electricity
The relative position variation that the induction region of the whether relatively described sensing unit of sub- equipment occurs.
12. electronic equipment according to claim 9, which is characterized in that the detection unit is collecting unit, for detecting
Whether the operation object meets the first preset condition;Alternatively,
The detection unit is receiving unit, and operation object described in the Data Detection for the operation object based on reception is
The first preset condition of no satisfaction.
13. electronic equipment according to claim 9, which is characterized in that the adjustment execution unit refers to for executing adjustment
It enables, adjusts the resistance coefficient of the induction region;Alternatively, executing adjust instruction, the resistance coefficient of the induction region is maintained not
Become, adjusts the comparative resistance between the sensing unit and the operation object.
14. electronic equipment according to claim 9, which is characterized in that first electronic equipment further includes display unit,
After switching to second mode by first mode for the sensing unit, the to match with second comparative resistance is generated
One interface, and show first interface in predeterminable area output.
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CN201410834776.3A CN104635923B (en) | 2014-12-26 | A kind of information processing method and equipment |
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EP0244698A1 (en) * | 1986-05-05 | 1987-11-11 | Siemens Aktiengesellschaft | Detector mat and method for its production |
CN103853414A (en) * | 2012-12-05 | 2014-06-11 | 联想(北京)有限公司 | Information processing method, electronic equipment and touch control input equipment |
CN103995584A (en) * | 2014-04-29 | 2014-08-20 | 深圳超多维光电子有限公司 | Three-dimensional interactive method, display device, handling rod and system |
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Publication number | Priority date | Publication date | Assignee | Title |
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EP0244698A1 (en) * | 1986-05-05 | 1987-11-11 | Siemens Aktiengesellschaft | Detector mat and method for its production |
CN103853414A (en) * | 2012-12-05 | 2014-06-11 | 联想(北京)有限公司 | Information processing method, electronic equipment and touch control input equipment |
CN103995584A (en) * | 2014-04-29 | 2014-08-20 | 深圳超多维光电子有限公司 | Three-dimensional interactive method, display device, handling rod and system |
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