CN104076953B - A kind of input unit and information processing method - Google Patents
A kind of input unit and information processing method Download PDFInfo
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- CN104076953B CN104076953B CN201310099530.1A CN201310099530A CN104076953B CN 104076953 B CN104076953 B CN 104076953B CN 201310099530 A CN201310099530 A CN 201310099530A CN 104076953 B CN104076953 B CN 104076953B
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Abstract
The invention discloses a kind of input unit and information processing method, it is related to electronic apparatus application field, can solve the problem that needs user to adjust the problem that wireless mouse is positioned against, and can simplify the operating process of user.The method of the present invention includes:Determine the first direction, first direction is the direction of user's palm when manipulating the input unit;First direction and the second direction are compared, the angle value between first direction and second direction is drawn, second direction is the preset direction of the input unit;Detect the first position change information of the input unit;The first position change information is modified according to the angle value, obtains second place change information;According to second place change information control first mark.During controlling computer monitor cursor by wireless mouse.
Description
Technical field
The present invention relates to electronic apparatus application field, more particularly to a kind of input unit and information processing method.
Background technology
Wireless mouse with its without physical connection limitation, it is easy to carry and use the characteristics of enjoy vast electronic device user
Favor, but simultaneously because wireless mouse has without the characteristics of connection without physical connection, physics is not received in the direction that it is positioned against
The limitation of line, so user generally needs the direction first to wireless mouse to be adjusted when using wireless mouse, will be wireless
The direction of mouse is adjusted to the direction residing for electronic equipment, otherwise steer direction and wireless mouse of the user to wireless mouse
Control direction to electronic equipment is inconsistent, causes user to be manipulated to electronic equipment by wireless mouse.To wireless
The adjustment in mouse direction can increase the operating procedure that user manipulates wireless mouse, and user's manipulation wireless mouse is brought inconvenience.This
Outward, the direction of wireless mouse is adjusted under dark surrounds or in the case of user's inconvenience observation wireless mouse position, can be also increased
User manipulates the operation difficulty of wireless mouse.
The content of the invention
The embodiment of the present invention provides a kind of input unit and information processing method, and can solve the problem that needs user to adjust wireless mouse
The problem of cursor position direction, simplifies the operating process of user.
On the one hand, a kind of input unit is the embodiment of the invention provides, on control electronics display unit
The movement of one mark, the input unit includes:
Determining unit, for determining the first direction, uses when first direction is for the manipulation input unit
The direction of family palm;
Comparing unit, first direction for the determining unit to be determined is compared with the second direction
It is right, the angle value between first direction and second direction is drawn, second direction is described
The preset direction of input unit;
Detection unit, the first position change information for detecting the input unit;
Amending unit, for the angle value that is drawn according to the comparing unit to described in detection unit detection
First position change information is modified, and obtains second place change information;
Control unit, second place change information control first mark for being obtained according to the amending unit
Know.
On the other hand, the embodiment of the present invention additionally provides a kind of information processing method, for input unit, the input dress
The movement for the first mark on control electronics display unit is put, methods described includes:
Determine the first direction, first direction is the direction side of user's palm when manipulating the input unit
To;
First direction and the second direction are compared, draws first direction with described
Angle value between two directions, second direction is the preset direction of the input unit;
Detect the first position change information of the input unit;
The first position change information is modified according to the angle value, obtains second place change information;
According to second place change information control first mark.
Input unit provided in an embodiment of the present invention and information processing method, hand when can determine user's operated input device
First direction of the palm, the first direction is compared with default second direction, draws folder between the two
Angle value, then detects the first position change information of input unit, and first position change information is repaiied according to angle value
Just, second place change information is obtained, finally according to the second place change information for obtaining to the first mark on display unit
It is controlled.Compared with user in the prior art needs the direction for adjusting wireless mouse, user can be allowed in wireless mouse court
The cursor in display is operated in the case of to any one direction, user's operation wireless mouse can be greatly simplified
Complexity.
Brief description of the drawings
In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing
The accompanying drawing to be used needed for having technology description is briefly described, it should be apparent that, drawings in the following description are only this
Some embodiments of invention, for those of ordinary skill in the art, on the premise of not paying creative work, can be with
Other accompanying drawings are obtained according to these accompanying drawings.
Fig. 1 is the structural representation of input unit in the embodiment of the present invention;
Fig. 2 (a) and Fig. 2 (b) are the manipulation schematic diagram of wireless mouse in the prior art;
Fig. 3 (a) and Fig. 3 (b) is the manipulation schematic diagram of wireless mouse in the embodiment of the present invention;
Fig. 4 (a) and Fig. 4 (b) is the manipulation schematic diagram of another wireless mouse in the embodiment of the present invention;
Fig. 5 is the structural representation of another input unit in the embodiment of the present invention;
Fig. 6 (a) and Fig. 6 (b) is the schematic diagram of wireless mouse use direction in the embodiment of the present invention;
Fig. 7 (a) and Fig. 7 (b) is the angle schematic diagram of wireless mouse and user's palm in the embodiment of the present invention;
Fig. 8 (a) and Fig. 8 (b) is the structure chart of wireless mouse in the embodiment of the present invention;
Fig. 9 is the method flow diagram of information processing in the embodiment of the present invention.
Specific embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete
Site preparation is described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.It is based on
Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under the premise of creative work is not made
Embodiment, belongs to the scope of protection of the invention.
The present embodiment provides a kind of input unit, and the input unit is located in mouse, shows single for control electronics
The movement of the first mark in unit, wherein, the electronic equipment includes but is not limited to be mobile phone or computer that first mark can
Being the cursor in electronic equipment display unit.As shown in figure 1, the input unit 11 includes:Determining unit 111, comparison are single
Unit 117 is exchanged in unit 112, detection unit 113, amending unit 114, control unit 115, touch control unit 116 and instruction, its
In,
The determining unit 111, for determining the first direction.
First direction is the direction of user's palm when manipulating the input unit 11.Hand described in the present embodiment
The direction of the palm refers to the direction of user's finger, and the direction of the non-user palm of the hand, usual user manipulates described defeated
Display unit of the palm towards electronic equipment when entering device 11.
The comparing unit 112, for the first direction and the second direction that determine the determining unit 111
Compare, draw the angle value between the first direction and the second direction.Wherein, the second direction is described defeated
Enter the preset direction of device 11, the preset direction keeps being relatively fixed with the input unit 11, for example, can be the input
The direction of device 11.
The detection unit 113, the first position change information for detecting the input unit 11.
When user is moved by the input unit 11 to the cursor in electronic equipment display unit, the inspection
The first position change information that unit 113 detects the input unit 11 is surveyed, the first position information includes change in location side
To and displacement, change in location direction can be forward, backward, to the left, to the right etc..
The amending unit 114, for the angle value that is drawn according to the comparing unit 112 to the detection unit 113
The first position change information of detection is modified, and obtains second place change information.
Specifically, the amending unit 114 is modified to the change in location direction in the change information of first position, amendment
Angle variable quantity be angle value that the comparing unit 112 draws.
Described control unit 115, for the second place change information control first obtained according to the amending unit 116
Mark.
After the amending unit 114 obtains second place change information, described control unit 115 becomes according to the second place
Change in location direction and displacement in change information are controlled to the cursor in electronic equipment display unit.
As shown in Fig. 2 (a), usual user when using wireless mouse, display unit of the wireless mouse towards electronic equipment.
Fig. 2 (b) is the top view that user manipulates wireless mouse on the table, and user goes up respectively according in Fig. 2 (b) 1,2,3,4 order
Under when moving left and right wireless mouse, the direction of the cursor movement in electronic equipment display unit is followed successively by 1,2,3,4 in Fig. 2 (a)
The direction for being marked, i.e. light target moving direction are consistent with the manipulation body-sensing of user.
But, the premise that light target moving direction is consistent with the manipulation body-sensing of user is, wireless mouse is towards electronics
The display unit of equipment.Because wireless mouse is not controlled by physical connection line, therefore user needs to adjust the court of wireless mouse
To then can just control it.The present embodiment provide input unit 11 can when wireless mouse is towards any direction,
Light target moving direction can be consistent with the manipulation body-sensing of user, it is possible to use family need not adjust the direction of wireless mouse
Directly the cursor in electronic equipment display unit can be controlled.
Illustrate below and the function of the input unit 11 shown in Fig. 1 is illustrated.Using the direction of wireless mouse as
Shown in second direction, such as Fig. 3 (a), the direction (i.e. the first direction) of user's palm is set to direct north, nothing
The direction of Line Mouse is due east direction, and when wireless mouse is moved to direct north, the cursor in display unit is moved upwards
It is dynamic.As shown in Fig. 3 (b), in the prior art, if user before wireless mouse is manipulated not by the direction of wireless mouse
Direct north is adjusted to, then when user holds wireless mouse to be moved to direct north, the cursor in display unit is moved to the left,
During i.e. equivalent to wireless mouse towards due north, user manipulates wireless mouse and is moved to due west direction, thus causes light target to move
The direction problem inconsistent with the manipulation body-sensing of user.In the present embodiment, when user holds wireless mouse, wireless mouse is true
The direction (the first direction) of user's palm is determined for direct north, and now wireless mouse is towards due east direction.Then without
Line Mouse compares direction (the second direction side of the direction (the first direction) with wireless mouse that obtain user's palm
To) between angle value be 90 °.When user's manipulation wireless mouse is moved to direct north, wireless mouse detects itself
First position change information is to move 2 centimeters (for directions of wireless mouse as direct north) to due west direction,
Then first position change information is modified to from moving 2 centimeters to due west direction and moves 2 centimeters to direct north, will first
90 ° of the adjustment counterclockwise of due west direction in change in location information, obtains second place change information, and last wireless mouse is according to the
Cursor movement in two change in location information control display units.The movement of wireless mouse and the movement of light target are respectively such as Fig. 3
Shown in arrow in (a).It is achieved in when wireless mouse is towards due east direction, user controls wireless mouse according to volar direction
Can also realize that light target moving direction is consistent with the manipulation body-sensing of user.
By wireless mouse towards being illustrated as a example by the direction of due east in Fig. 3 (a), wireless mouse is any towards other in addition
Implementation during one direction implementation can show that here is omitted as shown in Figure 1.
Substantially it is user's palm the reason for the manipulation body-sensing of light target moving direction and user is inconsistent in the present embodiment
Direction it is inconsistent with the direction of wireless mouse.For example in Fig. 3 (a), during user's palm mobile wireless mouse
Direction is picture surface, and the direction of wireless mouse is picture front-right, thus causes what wireless mouse was obtained
Had differences between the steer direction of change in location information and user's original idea.As shown in Fig. 4 (a), when the direction side of wireless mouse
To it is consistent with the direction of user's palm when, for example towards direct north when (under normal condition use wireless mouse
When), the light target moving direction problem inconsistent with the manipulation body-sensing of user will not occur;As shown in Fig. 4 (b), when wireless mouse
When the direction of target direction and user's palm is inconsistent, user to direct north mobile wireless mouse originally mean to
Upper mobile cursor, but the change in location information that wireless mouse is obtained is then Left Arrow.
Further, as shown in figure 5, the determining unit 111 includes:
First determination subelement 511, the position for determining user's thumb by capacitive sensing.
Usual normal person manipulates wireless mouse using the right hand, and input unit 11 can be by detecting user's hand thumb position
Mode determine the direction of user's palm.Specifically, the determining unit 111 can be arranged on the side of wireless mouse,
The first determination subelement 511 in the determining unit 111 determines the position of user's thumb by way of capacitive sensing.
Further, as shown in figure 5, the determining unit 111 also includes the second determination subelement 512, for by electricity
Resistance sense should determine that the position of user's thumb.
The input unit 11 is determined the implementation of user's thumb position and is led to by second determination subelement 512
Cross first determination subelement 511 and determine that the implementation of user's thumb position is identical, difference part is only by resistance sense
The position of user's thumb is should determine that, capacitive sensing device resistance inductor can be replaced with.
Further, as shown in figure 5, the determining unit 111 also includes the 3rd determination subelement 513, for by pressure
Power sensing determines the position of user's thumb.
The input unit 11 is determined the implementation of user's thumb position and is led to by the 3rd determination subelement 513
Cross first determination subelement 511 and determine that the implementation of user's thumb position is identical, difference part is only by feeling of stress
The position of user's thumb is should determine that, capacitive sensing device pressure inductor can be replaced with.
Further, as shown in figure 5, the determining unit 111 also includes the 4th determination subelement 514, for by light
Inductance should determine that the position of user's thumb.
The input unit 11 is determined the implementation of user's thumb position and is led to by the 4th determination subelement 514
Cross first determination subelement 511 and determine that the implementation of user's thumb position is identical, difference part is only by light inductance
The position of user's thumb is should determine that, capacitive sensing device photoelectric sensor can be replaced with.
Further, as shown in figure 5, the determining unit 111 also include the 5th determination subelement 515, for according to
The position of family thumb determines the first direction.
It is described after first determination subelement 511 to the 4th determination subelement 514 determines user's thumb position
Turn clockwise 90 ° of direction of direction where user's thumb is defined as the direction side of user's palm by the 5th determination subelement 515
To i.e. the first direction.
By taking first determination subelement 511 as an example, in Fig. 6 (a) and Fig. 6 (b), the left surface of wireless mouse is provided with
Capacitive sensing device (first determination subelement 511), in Fig. 6 (a), when capacitive sensing device senses the thumb of user,
Determine the direction that direct north is user's palm;In Fig. 6 (b), when capacitive sensing device does not sense the thumb of user
When, determine the direction that due south direction is user's palm.
Preferably, the side of wireless mouse can set a figure capacitive sensing device, when the thumb of user is detected, will use
Turn clockwise 90 ° of direction of direction where family thumb is defined as the direction of user's palm, is achieved in user any
Angle can detect the direction of user's palm when gripping wireless mouse.
Further, the comparing unit 112 is specifically for being counterclockwise by the first direction to the second direction
The angle value in direction is defined as positive angle value, is that clockwise angle value is true by the first direction to the second direction
It is set to negative angle value.
Because the difference of wireless mouse direction can cause to correct the difference in direction, it is therefore desirable to the first direction
Angle value to the second direction carries out positive and negative differentiation, so as to subsequent correction first position change information.For example in Fig. 7 (a)
Wireless mouse towards due west direction, in Fig. 7 (b) wireless mouse towards due east direction, with user's palm towards compared with direct north
Both angle differences are 90 °, but amendment direction is obviously opposite.Therefore specify in the present embodiment, by the first direction
To the second direction for anticlockwise angle value is defined as positive angle value, by the first direction to the second direction
For clockwise angle value is defined as negative angle value.
The amending unit 114 specifically for:
When the angle value that the comparing unit 112 draws is positive angle value, according to the angle of angle value to the detection
The first position change direction of the detection of unit 113 is adjusted counterclockwise, obtains second place change direction;List is compared when described
When the angle value that unit 112 draws is negative angle value, according to the first position that the angle of angle value is detected to the detection unit 113
Change direction is adjusted clockwise, obtains second place change direction.
Still as shown in fig. 7, in Fig. 7 (a), the angle value of the first direction to the second direction is positive 90 °, therefore
The amending unit 114 carries out inverse according to the angle of angle value to the first position change direction that the detection unit 113 is detected
Hour hands are adjusted, will 90 ° of the adjustment counterclockwise of the first position change direction that detects of wireless mouse, obtain first position change side
To;In Fig. 7 (b), the angle value of the first direction to the second direction is minus 90 °, therefore the amending unit 114 is pressed
Angle according to angle value is adjusted clockwise to the first position change direction that the detection unit 113 is detected, will be wireless
The first position change direction that mouse is detected 90 ° of adjustment clockwise, obtains second place change direction.
Further, the touch control unit 116, sits for obtaining position of the user's finger on the touch control unit 116
Mark information, the position coordinates of virtual key is determined according to the location coordinate information;
Described control unit 116 is additionally operable to according to the virtual key to the described first mark execute instruction.
Further, the touch control unit 116 is sat specifically for the position by user's forefinger on the touch control unit 116
Mark is defined as the position coordinates of virtual left button, and position coordinates of user's middle finger on the touch control unit 116 is defined as virtually
The position coordinates of right button.
Preferably, the present embodiment provides a kind of 360 ° of comprehensive manipulation mouses, and the mouse does not have physical button, but has
There is the touch screen of covering mouse body.Specifically, Fig. 8 (a) is the top view of the mouse, in Fig. 8 (a), mouse body 81 is
Circular design, is easy to user from arbitrarily angled gripping mouse;Fig. 8 (b) is the side view of the mouse, is coated with mouse body 81
The touch screen 82 consistent with the size of mouse body 81, the manipulation instruction for receiving user's finger, is provided with a figure around mouse
Inductor 83, the position for determining user's thumb.
Mouse shown in Fig. 8, can obtain the position of user's finger by touch screen 82 (equivalent to described control unit 116)
Coordinate information is put, the position coordinates of virtual key is determined according to the location coordinate information.Due to not having physics on touch screen 82
Button, it is possible to which the position that user's finger is touched is defined as the position of virtual key, mouse can be by fingerprint recognition skill
Art is identified to the forefinger and middle finger of user, where recognizes where the finger of user just will be defined as the position of virtual key
Put.
Described control unit 116 is additionally operable to according to virtual key to the first mark execute instruction.Specifically, working as touch screen 82
After recognizing virtual key, described control unit 116 can be using the clicking operation of user as the manipulation to virtual key, to aobvious
Show the cursor execute instruction in unit.For example, the touch control unit 116 can sit position of user's forefinger on touch screen 82
Mark is defined as the position coordinates of virtual left button, and position coordinates of user's middle finger on touch screen 82 is defined as the position of virtual right button
Put coordinate.
Further, it is described instruction exchange unit 117, for when the input unit 11 have physical button when, according to
The angle value that the comparing unit 112 draws is exchanged to the command function of left button in physical button and right button;
Described control unit 115 is additionally operable to exchange left button and the right side that unit 117 is exchanged after command function according to the instruction
Key is to the described first mark execute instruction.
Specifically, for the mouse with physical button shown in Fig. 7, unit 117 is exchanged in the instruction to be used to work as mouse
When direction is opposite with user's palm direction, the command function of left button is exchanged with the command function of right button, by
This makes user in reverse grip mouse, it is also possible to the cursor in display unit is controlled by the physical button on mouse.
In the present embodiment, the input unit 11 is mouse, and the mouse is used in control electronics display unit
Cursor.
The input unit 11 that the present embodiment is provided, can be according to the operation of user when wireless mouse is towards optional position
Cursor in display unit is controlled, and though that is, wireless mouse towards position whether with user's palm towards position one
Cause, the cursor in display unit can be controlled with the direction consistent with user's palm direction.With prior art
In need user to adjust wireless mouse position to compare, the operating procedure of user can be saved, improve the operating experience of user.
Further, the present embodiment additionally provides a kind of method of information processing, it is adaptable to foregoing input unit 11, uses
In the movement of the first mark on control electronics display unit.As shown in figure 9, methods described includes:
901st, the first direction is determined.
The direction of user's palm when first direction is operated input device.The court of palm described in the present embodiment
Refer to the direction of user's finger to direction, and the direction of the non-user palm of the hand, hand during usual user's operated input device
Slap the display unit towards electronic equipment.
902nd, the first direction is compared with the second direction, draws the first direction and the second direction side
Angle value between.
Wherein, the second direction is the preset direction of input unit, and the preset direction is relative solid with input unit holding
It is fixed, for example can be the direction of input unit.
903rd, the first position change information of input unit is detected.
When user is moved by input unit to the cursor in electronic equipment display unit, detection input unit
First position change information, the first position information includes change in location direction and displacement, and change in location direction can be
Forward, backward, to the left, to the right etc..
904th, first position change information is modified according to angle value, obtains second place change information.
Specifically, being modified to the change in location direction in the change information of first position, the angle variable quantity of amendment is
The angle value drawn in step 902.
905th, identified according to second place change information control first.
After second place change information is obtained, change in location direction and displacement in second place change information
Amount is controlled to the cursor in electronic equipment display unit.
As shown in Fig. 2 (a), usual user when using wireless mouse, display unit of the wireless mouse towards electronic equipment.
Fig. 2 (b) is the top view that user manipulates wireless mouse on the table, and user goes up bottom left respectively according in figure 1,2,3,4 order
When moving right wireless mouse, the direction of cursor in electronic equipment display unit movement is followed successively by Fig. 2 (a) 1,2,3,4 and is marked
The direction of note, i.e. light target moving direction are consistent with the manipulation body-sensing of user.
But, the premise that light target moving direction is consistent with the manipulation body-sensing of user is, wireless mouse is towards electronics
The display unit of equipment.Because wireless mouse is not controlled by physical connection line, therefore user needs to adjust the court of wireless mouse
To then can just control it.The input unit that the present embodiment is provided can be when wireless mouse be towards any direction,
Light target moving direction can be made to be consistent with the manipulation body-sensing of user, it is possible to use family need not adjust the direction of wireless mouse i.e.
Directly the cursor in electronic equipment display unit can be controlled.
Illustrate below and the method shown in Fig. 9 is illustrated.Using the direction of wireless mouse as the second direction,
As shown in Fig. 3 (a), by the direction of user's palm (i.e. the first direction be rush at electronic equipment display unit direction)
It is set to direct north, the direction of wireless mouse is due east direction, when wireless mouse is moved to direct north, display unit
In cursor move up.As shown in Fig. 3 (b), in the prior art, if user will not be wireless before wireless mouse is manipulated
The direction of mouse is adjusted to direct north, then when user holds wireless mouse to be moved to direct north, in display unit
Cursor be moved to the left, i.e., during equivalent to wireless mouse towards due north, user manipulate wireless mouse to due west direction move, thus
Cause the problem that light target moving direction is inconsistent with the manipulation body-sensing of user.In the present embodiment, when user holds wireless mouse
Timestamp, wireless mouse determines that the direction (the first direction) of user's palm is direct north, now wireless mouse direction
Due east direction.Then wireless mouse compares the direction of the direction (the first direction) with wireless mouse that obtain user's palm
Angle value between direction (the second direction) is 90 °.When user's manipulation wireless mouse is moved to direct north, wireless mouse
It is to move 2 centimeters to due west direction (direction with wireless mouse is that mark detects the first position change information of itself
For direct north), then first position change information is modified to direct north shifting from moving 2 centimeters to due west direction
Dynamic 2 centimeters, due west direction 90 ° of adjustment counterclockwise that will be in the change information of first position obtains second place change information, most
Cursor movement of the wireless mouse in second place change information control display unit afterwards.The movement of wireless mouse and cursor
It is mobile respectively as shown in the arrow in Fig. 3 (a).It is achieved in when wireless mouse is towards due east direction, user is according to palm
Direction controlling wireless mouse can also realize that light target moving direction is consistent with the manipulation body-sensing of user.
By wireless mouse towards being illustrated as a example by the direction of due east in Fig. 3 (a), wireless mouse is any towards other in addition
Implementation during one direction implementation deduction can show that here is omitted as shown in Figure 1.
The method shown in Fig. 9 is described in detail and further expanded below.
For step 901, input unit can determine the position of user's thumb by capacitive sensing, or be sensed by resistance
Determine the position of user's thumb, or the position of user's thumb is determined by pressure sensitive, or user's thumb is determined by optoelectronic induction
The position of finger.
Usual normal person manipulates wireless mouse using the right hand, and input unit can be by detecting user's hand thumb position
Mode determines the direction of user's palm.Specifically, inductor can be arranged on the side of wireless mouse, through the above way
Detect and determine the position of user's thumb.
When it is determined that after user's thumb position, the position according to user's thumb determines the first direction.Specifically, input dress
Put and turn clockwise 90 ° of direction of direction where user's thumb is defined as the direction of user's palm, i.e. the first direction side
To.
By taking capacitive sensing device as an example, in Fig. 6 (a) and Fig. 6 (b), the left surface of wireless mouse is provided with capacitive sensing device,
In Fig. 6 (a), when capacitive sensing device senses the thumb of user, the direction that direct north is user's palm is determined;
In Fig. 6 (b), when capacitive sensing device does not sense the thumb of user, the direction that due south direction is user's palm is determined.
Preferably, the side of wireless mouse can set a figure capacitive sensing device, when the thumb of user is detected, will use
Turn clockwise 90 ° of direction of direction where family thumb is defined as the direction of user's palm, is achieved in user any
Angle can detect the direction of user's palm when gripping wireless mouse.
Further, the specific implementation of step 902 is:It is counterclockwise by the first direction to the second direction
The angle value in direction is defined as positive angle value, is that clockwise angle value is true by the first direction to the second direction
It is set to negative angle value.
Because the difference of wireless mouse direction can cause to correct the difference in direction, it is therefore desirable to the first direction
Angle value to the second direction carries out positive and negative differentiation, so as to subsequent correction first position change information.For example in Fig. 7 (a)
Wireless mouse towards due west direction, in Fig. 7 (b) wireless mouse towards due east direction, with user's palm towards compared with direct north
Both angle differences are 90 °, but amendment direction is obviously opposite.Therefore specify in the present embodiment, by the first direction
To the second direction for anticlockwise angle value is defined as positive angle value, by the first direction to the second direction
For clockwise angle value is defined as negative angle value.
The specific implementation of step 904 is:When the angle value drawn in step 902 is positive angle value, according to angle
The angle of value is adjusted counterclockwise to the first position change direction detected in step 903, obtains second place change direction;
When the angle value drawn in step 902 is negative angle value, the first position detected to step 903 according to the angle of angle value becomes
Change direction to be adjusted clockwise, obtain second place change direction.
Still as shown in fig. 7, in Fig. 7 (a), the angle value of the first direction to the second direction is positive 90 °, therefore
Angle according to angle value is adjusted counterclockwise to the first position change direction for detecting, will wireless mouse detect the
One change in location direction, 90 ° of adjustment counterclockwise, obtains first position change direction;In Fig. 7 (b), the first direction to
The angle value of two directions be minus 90 °, therefore according to angle value angle to detect first position change direction carry out it is suitable
Hour hands are adjusted, will 90 ° of the adjustment clockwise of the first position change direction that detects of wireless mouse, obtain second place change side
To.
Further, methods described also includes:The location coordinate information of user's finger is obtained, according to the location coordinate information
Determine the position coordinates of virtual key.According to the virtual key to the first mark execute instruction.Specifically, by user's forefinger
Position coordinates is defined as the position coordinates of virtual left button, and the position that the position coordinates of user's middle finger is defined as virtual right button is sat
Mark.
Further, methods described also includes:When input unit has physical button, according to what is drawn in step 902
Angle value is exchanged to the command function of left button in physical button and right button, and according to exchange command function after left button and
Right button is to the described first mark execute instruction.
Specifically, for the mouse with physical button shown in Fig. 7, when mouse direction and user's palm direction side
To it is opposite when, the command function of left button is exchanged with the command function of right button, thus make user in reverse grip mouse, also may be used
The cursor in display unit is controlled with by the physical button on mouse.
Information processing method provided in an embodiment of the present invention, the first court of palm when can determine user's operated input device
To direction, the first direction is compared with default second direction, draw angle value between the two, Ran Houjian
The first position change information of input unit is surveyed, and first position change information is modified according to angle value, obtain second
Change in location information, is controlled finally according to the second place change information for obtaining to the first mark on display unit.With
User needs the direction for adjusting wireless mouse to compare in the prior art, can allow user in wireless mouse towards any one side
The cursor in display is operated in the case of, the complexity that user operates wireless mouse can be greatly simplified.
Through the above description of the embodiments, it is apparent to those skilled in the art that the present invention can be borrowed
Software is helped to add the mode of required common hardware to realize, naturally it is also possible to which by hardware, but the former is more preferably in many cases
Implementation method.Based on such understanding, the portion that technical scheme substantially contributes to prior art in other words
Dividing can be embodied in the form of software product, and the computer software product is stored in the storage medium that can read, and such as be counted
The floppy disk of calculation machine, hard disk or CD etc., including some instructions are used to so that computer equipment (can be personal computer,
Server, or the network equipment etc.) perform method described in each embodiment of the invention.
The above, specific embodiment only of the invention, but protection scope of the present invention is not limited thereto, and it is any
Those familiar with the art the invention discloses technical scope in, change or replacement can be readily occurred in, should all contain
Cover within protection scope of the present invention.Therefore, protection scope of the present invention described should be defined by scope of the claims.
Claims (13)
1. a kind of input unit, for the movement of the first mark on control electronics display unit, it is characterised in that described
Input unit includes:
Determining unit, is arranged on the side of the input unit, and for determining the first direction, first direction is
The direction of user's palm when manipulating the input unit, including:After determining the position of user's thumb, by user's thumb position
Turn clockwise 90 ° of direction of place direction is defined as the direction of user's palm;
Comparing unit, first direction for the determining unit to be determined is compared with the second direction,
The angle value between first direction and second direction is drawn, second direction is the input
The preset direction of device;
Detection unit, the first position change information for detecting the input unit;
Amending unit, the angle value for being drawn according to the comparing unit detection unit is detected described first
Change in location information is modified, and obtains second place change information;
Control unit, second place change information control first mark for being obtained according to the amending unit.
2. input unit according to claim 1, it is characterised in that the determining unit includes:
First determination subelement, the position for determining user's thumb by capacitive sensing;
Second determination subelement, the position of user's thumb is determined for sensing by resistance;
3rd determination subelement, the position for determining user's thumb by pressure sensitive;
4th determination subelement, the position for determining user's thumb by optoelectronic induction;
5th determination subelement, for determining first direction according to the position of user's thumb.
3. input unit according to claim 2, it is characterised in that the comparing unit is specifically for by first court
To direction to second direction for anticlockwise angle value is defined as positive angle value, by first direction
To second direction for clockwise angle value is defined as negative angle value;
The amending unit specifically for:
When the angle value that the comparing unit draws is positive angle value, according to the angle of the angle value to the detection
The first position change direction of unit detection is adjusted counterclockwise, obtains second place change direction;
When the angle value that the comparing unit draws is negative angle value, according to the angle of the angle value to the detection
The first position change direction of unit detection is adjusted clockwise, obtains second place change direction.
4. input unit according to claim 1, it is characterised in that the input unit also includes:
Touch control unit, for obtaining location coordinate information of the user's finger on the touch control unit, according to the position coordinates
Information determines the position coordinates of virtual key;
Described control unit is additionally operable to according to the virtual key to the described first mark execute instruction.
5. input unit according to claim 4, it is characterised in that
The touch control unit is defined as virtual left button specifically for the position coordinates by user's forefinger on the touch control unit
Position coordinates, position coordinates of user's middle finger on the touch control unit is defined as the position coordinates of virtual right button.
6. input unit according to claim 1, it is characterised in that the input unit also includes:
Unit is exchanged in instruction, for when the input unit has physical button, according to the comparing unit draws
Angle value is exchanged to the command function of left button and right button in the physical button;
Described control unit is additionally operable to exchange left button and right button that unit exchanged after command function to described the according to the instruction
One mark execute instruction.
7. input unit as claimed in any of claims 1 to 6, it is characterised in that the input unit is mouse,
The cursor that the mouse is used in control electronics display unit.
8. a kind of information processing method, for input unit, the input unit is used on control electronics display unit
The movement of the first mark, it is characterised in that methods described includes:
The inductor set in the input unit side is used to determine the first direction that first direction to be manipulation
The direction of user's palm during the input unit, including:After determining the position of user's thumb, by where user's thumb position
Turn clockwise 90 ° of direction of direction is defined as the direction of user's palm;
First direction and the second direction are compared, draws first direction with second court
To the angle value between direction, second direction is the preset direction of the input unit;
Detect the first position change information of the input unit;
The first position change information is modified according to the angle value, obtains second place change information;
According to second place change information control first mark.
9. information processing method according to claim 8, it is characterised in that the direction of the determination first is specifically wrapped
Include:
The position of user's thumb is determined by capacitive sensing, or the position for determining user's thumb is sensed by resistance, or by pressure
Power sensing determines the position of user's thumb, or the position that user's thumb is determined by optoelectronic induction;
Position according to user's thumb determines first direction.
10. information processing method according to claim 9, it is characterised in that described by first direction and
Two directions are compared, and draw the angle value between first direction and second direction, specific bag
Include:
By first direction to second direction for anticlockwise angle value is defined as positive angle value, will
First direction is to second direction for clockwise angle value is defined as negative angle value;
It is described the first position change information is modified according to the angle value, second place change information is obtained, have
Body includes:
If the angle value is positive angle value, according to the angle of the angle value is carried out to first position change direction the inverse time
Pin is adjusted, and obtains second place change direction;
If the angle value is negative angle value, up time is carried out to first position change direction according to the angle of the angle value
Pin is adjusted, and obtains second place change direction.
11. information processing methods according to claim 8, it is characterised in that methods described is further included:
When the input unit has touch screen, location coordinate information of the user's finger on the touch screen is obtained, according to
The location coordinate information determines the position coordinates of virtual key;
According to the virtual key to the described first mark execute instruction.
12. information processing methods according to claim 11, it is characterised in that described true according to the location coordinate information
Determine the position coordinates of virtual key, specifically include:
Position coordinates of user's forefinger on the touch screen is defined as the position coordinates of virtual left button, by user's middle finger in institute
State the position coordinates that the position coordinates on touch screen is defined as virtual right button.
13. information processing methods according to claim 8, it is characterised in that methods described is further included:
When the input unit has physical button, according to the angle value to the finger of left button and right button in the physical button
Function is made to be exchanged;
According to the left button and right button exchanged after command function to the described first mark execute instruction.
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN1598749A (en) * | 2004-08-24 | 2005-03-23 | 黄春克 | Hand-held mouse |
CN101893943A (en) * | 2009-05-20 | 2010-11-24 | 华硕电脑股份有限公司 | Adaptable mouse |
CN102156585A (en) * | 2011-04-27 | 2011-08-17 | 段西京 | Handwriting input control method and handwriting input device with mouse operation function |
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CN101916140B (en) * | 2010-08-05 | 2012-07-18 | 郭小卫 | Omnibearing mouse |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN1598749A (en) * | 2004-08-24 | 2005-03-23 | 黄春克 | Hand-held mouse |
CN101893943A (en) * | 2009-05-20 | 2010-11-24 | 华硕电脑股份有限公司 | Adaptable mouse |
CN102156585A (en) * | 2011-04-27 | 2011-08-17 | 段西京 | Handwriting input control method and handwriting input device with mouse operation function |
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