CN100480974C - Method for detecting gesture by using touch-controlled shaft with press key and roller functions - Google Patents
Method for detecting gesture by using touch-controlled shaft with press key and roller functions Download PDFInfo
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- CN100480974C CN100480974C CNB2006100004563A CN200610000456A CN100480974C CN 100480974 C CN100480974 C CN 100480974C CN B2006100004563 A CNB2006100004563 A CN B2006100004563A CN 200610000456 A CN200610000456 A CN 200610000456A CN 100480974 C CN100480974 C CN 100480974C
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Abstract
The invention provides a combined press key and rolling shaft contact control shaft hand gesture inspection method, with the contact control shaft being divided into several zones, composed of inspecting a pair of contact control shaft, deciding the object control shaft zone and whether it moves on the contact control shaft, sending out the object location information if the object is moving, otherwise, inspecting the object leaving the contact control plate, with the gesture signal being initialized. Through object contact control plate, leaving control plate or moving on the contact control plate, it can inspect various gestures with improved convenience of application.
Description
Technical field
The present invention relates to a kind of detection method of touch-controlled shaft, particularly a kind of gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions.
Background technology
Trackpad is a kind of for the finger input media that slip is moved with the control cursor on level and smooth panel.Because the thickness of Trackpad is extremely thin, thus can design among ultra-thin mobile computer, keyboard, digital player or other device, and because it is not mechanical design, so very easy on safeguarding.
Touch pad technology is widely applied on electronic product now, wherein the normal and touch-controlled key applied in any combination of touch roller bearing is on the panel of consumption electronic products, in order to carry out as the choosing of menu, to move or the adjusting of volume, brightness etc., existing panel construction separates key induced district and roller bearing induction zone, on the panel except that having a display, a plurality of key induced districts and a roller bearing induction zone also need be arranged, as shown in Figure 1, button 100 squeezes on a panel 105 with touch-controlled shaft 110, make the size of panel 105 have a restriction to exist, panel construction is also comparatively complicated.
In the trend of consumption electronic products microminiaturization, the area of panel has the demand of dwindling more, and the various panel Method for Area of dwindling are suggested successively.
Summary of the invention
The objective of the invention is to, a kind of gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions is provided.By judge whether object moves, and confirms various gesture operations on touch-controlled shaft, increases the convenience on using on touch-controlled shaft.
The invention provides a kind of gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions, described touch-controlled shaft is divided into a plurality of zones, and each zone is corresponding with a button, and the method comprising the steps of:
Detect the object touch touch-controlled shaft; Judge the zone of object touching touch-controlled shaft; Judge whether object moves on touch-controlled shaft; If described object moves, then send this object location information on touch-controlled shaft; Do not move if described object has on touch-controlled shaft, then detect this object and leave Trackpad, and initialization one gesture signal.
The present invention also provides a kind of gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions, and touch-controlled shaft is divided into a plurality of zones, and each zone is corresponding with a button, and the method comprising the steps of:
Detect an object and touch touch-controlled shaft for the first time; Detected object leaves touch-controlled shaft for the first time; The affirmation object is touched touch-controlled shaft for the first time and is moved during leaving for the first time touch-controlled shaft; Detected object is touched touch-controlled shaft for the second time; Calculating object leaves touch-controlled shaft for the first time to the time departure of touching for the second time touch-controlled shaft; Confirm that described time departure is less than a reference time; Judge the zone of object touching touch-controlled shaft; Confirm that object touches for the second time and have behind the touch-controlled shaft mobilely, then be judged to be the towing gesture.
The present invention also provides a kind of gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions, and touch-controlled shaft is divided into a plurality of zones, and each zone is corresponding with a button, and the method comprising the steps of:
Detect an object and touch touch-controlled shaft for the first time; Detected object leaves touch-controlled shaft for the first time; The affirmation object is touched touch-controlled shaft for the first time and is moved during leaving for the first time touch-controlled shaft; Initialization one gesture signal; Detected object is touched this touch-controlled shaft for the second time; Calculating object leaves touch-controlled shaft for the first time to the time departure of touching for the second time touch-controlled shaft; Confirm that described time departure is less than a reference time; Safeguard described hand signal; Judge the zone of object touching touch-controlled shaft; Judge that whether object moves, and moves on this touch-controlled shaft as if object, then launching position information on touch-controlled shaft; Detected object leaves touch-controlled shaft for the second time; And finish described hand signal.
The present invention also provides a kind of gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions, and touch-controlled shaft is divided into a plurality of zones, and each zone is corresponding with a button, and the method comprising the steps of:
Detect an object and touch touch-controlled shaft for the first time; Detected object leaves touch-controlled shaft for the first time; The affirmation object is touched touch-controlled shaft for the first time and is moved during leaving for the first time touch-controlled shaft; Initialization one gesture signal; Detected object is touched touch-controlled shaft for the second time; Calculating object leaves touch-controlled shaft for the first time to the time departure of touching for the second time touch-controlled shaft; Confirm that time departure is less than a reference time; Judge the zone of object touching touch-controlled shaft; Confirm object touch for the second time have behind the touch-controlled shaft mobile; Initialization one second hand signal; Detected object leaves touch-controlled shaft for the second time; And finish described second hand signal.
The present invention also provides a kind of gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions, and touch-controlled shaft is divided into a plurality of zones, and each zone is corresponding with a button, and the method comprising the steps of:
Detect an object and touch touch-controlled shaft for the first time; Detected object leaves touch-controlled shaft for the first time; The affirmation object is touched touch-controlled shaft for the first time and is moved during leaving for the first time touch-controlled shaft; Detected object is touched touch-controlled shaft for the second time; Calculating object leaves touch-controlled shaft for the first time to the time departure of touching for the second time touch-controlled shaft; Confirm that described time departure is less than a reference time; Judge the zone of object touching touch-controlled shaft; Detected object leaves touch-controlled shaft for the second time; The affirmation object is touched touch-controlled shaft for the second time and is moved during leaving for the second time touch-controlled shaft, then is judged to be the double-click gesture.
The present invention also provides a kind of gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions, and touch-controlled shaft is divided into a plurality of zones, and each zone is corresponding with a button, and the method comprising the steps of:
Detect an object and touch touch-controlled shaft for the first time; Detected object leaves touch-controlled shaft for the first time; The affirmation object is touched touch-controlled shaft for the first time and is moved during leaving for the first time touch-controlled shaft; Initialization one first hand signal; Detected object is touched touch-controlled shaft for the second time; Calculating object leaves touch-controlled shaft for the first time to the time departure of touching for the second time touch-controlled shaft; Confirm that described time departure is less than a reference time; Safeguard described hand signal; Judge the zone of object touching touch-controlled shaft; Detected object leaves touch-controlled shaft for the second time; The affirmation object is touched touch-controlled shaft for the second time and is moved during leaving for the second time touch-controlled shaft; Finish described first hand signal; And initialization one second hand signal.
The present invention also provides a kind of gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions, and touch-controlled shaft is divided into a plurality of zones, and each zone is corresponding with a button, and the method comprising the steps of:
Detect an object and touch touch-controlled shaft for the first time; Detected object leaves touch-controlled shaft for the first time; The affirmation object is touched touch-controlled shaft for the first time and is moved during leaving for the first time touch-controlled shaft; Initialization one first hand signal; Detected object is touched touch-controlled shaft for the second time; Calculating object leaves touch-controlled shaft for the first time to the time departure of touching for the second time touch-controlled shaft; Confirm that described time departure is less than a reference time; Judge the zone of object touching touch-controlled shaft; Detected object leaves touch-controlled shaft for the second time; The affirmation object is touched touch-controlled shaft for the second time and is moved during leaving for the second time touch-controlled shaft; And initialization one second hand signal.
According to the present invention, by object touching touch-controlled shaft, leave touch-controlled shaft or the operation of on touch-controlled shaft, moving etc.,, confirms various gesture operations on touch-controlled shaft to detect various gesture, increase the convenience in the use.
Description of drawings
Fig. 1 is for being furnished with the synoptic diagram of button and touch-controlled shaft on the panel in the prior art;
Fig. 2 be with on the touch-controlled shaft in conjunction with the synoptic diagram in roller bearing induction zone and key induced district;
Fig. 3 is that a touch-controlled shaft is divided into a plurality of induction regions, and is defined as the synoptic diagram of virtual key;
Fig. 4 A clicks a detection signal of gesture and the synoptic diagram of an output signal;
Fig. 4 B is a synoptic diagram of clicking gesture one detection signal and an output signal;
Fig. 4 C clicks the synoptic diagram that gesture one is clicked a detection signal and an output signal;
Fig. 5 A is the synoptic diagram of towing gesture one detection signal and an output signal;
Fig. 5 B is the synoptic diagram of towing gesture one detection signal and an output signal;
Fig. 5 C is the synoptic diagram of towing gesture one detection signal and an output signal;
Fig. 6 A is for double-clicking the synoptic diagram of gesture one detection signal and an output signal;
Fig. 6 B is for double-clicking the synoptic diagram of gesture one detection signal and an output signal;
Fig. 6 C is for double-clicking the synoptic diagram of gesture one detection signal and an output signal;
Fig. 6 D is for double-clicking the synoptic diagram of gesture one detection signal and an output signal.
Embodiment
Fig. 2 combines the button 100 on the panel 105 of Fig. 1 with touch-controlled shaft 110, become the panel of the function of tool button 120 on the touch-controlled shaft 110, significantly dwindles compared to Fig. 1 area.
Fig. 3 is divided into a plurality of induction regions with a touch-controlled shaft 150, and is defined as virtual key for one of Fig. 2 makes mode in fact.
Click the detection method of gesture (Tap Gesture)
Object is not clicked gesture if having to move to be from the touching touch-controlled shaft during leaving touch-controlled shaft.
Fig. 4 A shows a detection signal 310 and an output signal 320, and output signal 320 comprises hand signal 322.After detecting the object touch touch-controlled shaft, this detection signal 310 is converted to another accurate position (for example transfer high levle to by low level, following examples are all lifted this example and done explanation) by an initial accurate position.Judge the zone of object touching touch-controlled shaft afterwards and judge whether object moves on touch-controlled shaft, mobile if object has on touch-controlled shaft, then be judged to be mobile gesture, and send object in position information such as the absolute coordinates of Trackpad, relative coordinate, rate of travels.If object moves on touch-controlled shaft, then after detecting this object and leaving touch-controlled shaft, detection signal 310 transfers low level to by high levle, and initialization hand signal 322.This hand signal 322 comprises the signal in the zone that object is touched.
Among one embodiment, calculating object leaves the time departure of touch-controlled shaft, if time departure greater than a reference time TTap, then finishes this hand signal 322, shown in Fig. 4 B.Among another embodiment, in initialization hand signal 322 back initialization one second hand signals 324, also can be at initialization hand signal 322 after initialization second hand signal 324 behind the reference time TTap, shown in Fig. 4 C.Wherein, hand signal 322 or 324 comprises the signal in the zone that object is touched.
The detection method of towing gesture (Drag Gesture)
Object leave for the first time touch-controlled shaft to the time of for the second time touching touch-controlled shaft less than a reference time, and object moves during touching touch-controlled shaft for the first time, and has to move after touching touch-controlled shaft for the second time and then be judged to be the towing gesture.
Fig. 5 A shows a detection signal 330 and an output signal 340, and output signal 340 comprises hand signal 342.After detecting an object and touching touch-controlled shaft for the first time, detection signal 330 transfers high levle to by low level, judges the zone that object is touched afterwards.Leave touch-controlled shaft for the first time and confirm object after do not have moving on the Trackpad detecting object, detection signal 330 transfers low level to by high levle, and this hand signal 342 of initialization.Calculating object leaves the time departure of touch-controlled shaft, if time departure is less than a reference time T
DragDetect object again and touch touch-controlled shaft for the second time, detection signal 330 transfers high levle to by low level once more, and safeguards hand signal 342.Judge that whether object moves, if object moves, then calculates and send the positional information of object on this touch-controlled shaft after touching for the second time touch-controlled shaft.After detecting object and leaving this touch-controlled shaft for the second time, detection signal 330 transfers low level to by high levle, and finishes hand signal 342.
In another embodiment, Fig. 5 B shows a detection signal 330 and an output signal 340, and output signal 340 comprises hand signal 342 and 344.Except after detecting object and leaving this touch-controlled shaft for the first time, initialization one gesture signal 342, also in confirming that object has when mobile after touching touch-controlled shaft for the second time, initialization one second hand signal 344 calculates and sends the positional information of object.After detecting object and leaving this touch-controlled shaft for the second time, detection signal 330 transfers low level to by high levle, and finishes second hand signal 344.In another embodiment, Fig. 5 C shows that output signal 340 comprises hand signal 342,344 and 346.After detecting object and leaving touch-controlled shaft for the second time, detection signal 330 transfers low level to by high levle, and finishes second hand signal 344, and initialization 1 the 3rd hand signal 346.
Wherein, hand signal 342 or 344 or 346 comprises the signal and the object location information in the zone that object is touched among Fig. 5 A to Fig. 5 C.Typically, this positional information can be an absolute coordinates, also can be the rate of travel of relative coordinate or this object.
In another embodiment, judge that wherein the step in the zone that object is touched can be carried out again after object is touched touch-controlled shaft for the second time, the touching zone that hand signal 344 or 346 is spread out of among Fig. 5 A to Fig. 5 C is the zone for touching for the second time just.Double-click the detection method of gesture (Double Tap Gesture)
Object leave for the first time touch-controlled shaft to the time of for the second time touching touch-controlled shaft less than a reference time, and all move during twice touching of object touch-controlled shaft, then be judged to be the double-click gesture.
Fig. 6 A shows a detection signal 350 and output signal 360, and output signal 360 comprises hand signal 362 and 364.After detecting an object and touching touch-controlled shaft for the first time, detection signal 350 transfers high levle to by low level, judges the zone that object is touched afterwards.After detecting object to leave touch-controlled shaft for the first time and confirm that object does not have and move on Trackpad, detection signal 350 transfers low level to by high levle, and initialization hand signal 362.Calculating object leaves the time departure of touch-controlled shaft, if time departure is less than a reference time T
DoubleTapDetect object again and touch touch-controlled shaft for the second time, detection signal 350 transfers high levle to by low level once more, and safeguards hand signal 362.Confirm that object moves after touching touch-controlled shaft for the second time, and after detecting object and leaving touch-controlled shaft for the second time, detection signal 350 transfers low level to by high levle, and finishes this hand signal 362, then initialization one second hand signal 364.
In another embodiment, Fig. 6 B shows a detection signal 350 and an output signal 360, and output signal 360 comprises hand signal 362 and 364.Except after detecting object and leaving touch-controlled shaft for the first time, initialization one gesture signal 362, also after detecting object and leaving touch-controlled shaft for the second time, detection signal 350 transfers low level to by high levle, and initialization second hand signal 364.
In another embodiment, Fig. 6 C shows that output signal 360 comprises hand signal 362,364 and 366.After detecting object and leaving touch-controlled shaft for the second time, detection signal 350 transfers low level to by high levle, and initialization second hand signal 364, then initialization 1 the 3rd hand signal 366.Also can be at initialization the 3rd hand signal 366 after a reference time T
DT2The 3rd hand signal 366 is finished in the back, shown in Fig. 6 C.In another embodiment, Fig. 6 D shows that output signal 360 comprises hand signal 362,364,366 and 368.Behind initialization second hand signal 364, then initialization the 3rd, the 4th hand signal 366 and 368 is to replace single the 3rd hand signal 366 of Fig. 6 C.
Wherein, hand signal 362 or 364 or 366 or 368 comprises the signal in the zone that object is touched among Fig. 6 A to Fig. 6 D.
Above-described absolute coordinates is to be the coordinate figure that fixed origin was produced with a fixed position (for example central point of this Trackpad or a corner), relative coordinate is to be the coordinate figure that reference origin was produced with a relative position (for example object just bumps the position of Trackpad), and rate of travel is the amount of movement with respect to reference origin.
In each above-mentioned embodiment, utilize the variation of induction amount and pass through to judge whether object moves, and confirms various gesture operations on touch-controlled shaft, increases the convenience on using on touch-controlled shaft.
The foregoing description only is used to illustrate the present invention, but not is used to limit the present invention.
Claims (33)
1. the gesture detecting method in conjunction with the touch-controlled shaft of button and roller functions is characterized in that, described touch-controlled shaft is divided into a plurality of zones, and each zone is corresponding with a button, and the method comprising the steps of:
Detect the object touch touch-controlled shaft;
Judge the zone of object touching touch-controlled shaft;
Judge whether object moves on touch-controlled shaft;
If described object moves, then send this object location information on touch-controlled shaft;
Do not move if described object has on touch-controlled shaft, then detect this object and leave Trackpad, and initialization one gesture signal.
2. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 1 is characterized in that described positional information comprises absolute coordinates or the relative coordinate or the rate of travel of object.
3. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 1 is characterized in that described hand signal comprises the signal in the zone of touch-controlled shaft that object is touched.
4. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 1 is characterized in that, also comprises: after the step of initialization hand signal, finish described hand signal after a reference time.
5. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 1 is characterized in that, also comprises: after the step of initialization hand signal, and initialization one second hand signal.
6. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 5 is characterized in that described initialization one second gesture signals step comprises: after a reference time, and described second hand signal of initialization.
7. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 5 is characterized in that the described second gesture signal packet is drawn together the signal in the zone of touch-controlled shaft that object is touched.
8. the gesture detecting method in conjunction with the touch-controlled shaft of button and roller functions is characterized in that, touch-controlled shaft is divided into a plurality of zones, and each zone is corresponding with a button, and the method comprising the steps of:
Detect an object and touch touch-controlled shaft for the first time;
Detected object leaves touch-controlled shaft for the first time;
The affirmation object is touched touch-controlled shaft for the first time and is moved during leaving for the first time touch-controlled shaft;
Detected object is touched touch-controlled shaft for the second time;
Calculating object leaves touch-controlled shaft for the first time to the time departure of touching for the second time touch-controlled shaft;
Confirm that described time departure is less than a reference time;
Judge the zone of object touching touch-controlled shaft;
Confirm that object touches for the second time and have behind the touch-controlled shaft mobilely, then be judged to be the towing gesture.
9. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 8, it is characterized in that the step that described judgement object bumps the zone of touch-controlled shaft comprises: the judgement object is touched the zone of touch-controlled shaft for the first time or is touched the zone of touch-controlled shaft for the second time.
10. the gesture detecting method in conjunction with the touch-controlled shaft of button and roller functions is characterized in that, touch-controlled shaft is divided into a plurality of zones, and each zone is corresponding with a button, and the method comprising the steps of:
Detect an object and touch touch-controlled shaft for the first time;
Detected object leaves touch-controlled shaft for the first time;
The affirmation object is touched touch-controlled shaft for the first time and is moved during leaving for the first time touch-controlled shaft;
Initialization one gesture signal;
Detected object is touched this touch-controlled shaft for the second time;
Calculating object leaves touch-controlled shaft for the first time to the time departure of touching for the second time touch-controlled shaft;
Confirm that described time departure is less than a reference time;
Safeguard described hand signal;
Judge the zone of object touching touch-controlled shaft;
Judge that whether object moves, and moves on this touch-controlled shaft as if object, then launching position information on touch-controlled shaft;
Detected object leaves touch-controlled shaft for the second time; And
Finish described hand signal.
11. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 10, it is characterized in that the step in the zone of described judgement object touching touch-controlled shaft comprises: the judgement object is touched the zone of touch-controlled shaft for the first time or is touched the zone of touch-controlled shaft for the second time.
12. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 11 is characterized in that described positional information comprises absolute coordinates or the relative coordinate or the rate of travel of object.
13. the gesture detecting method in conjunction with the touch-controlled shaft of button and roller functions is characterized in that touch-controlled shaft is divided into a plurality of zones, each zone is corresponding with a button, and the method comprising the steps of:
Detect an object and touch touch-controlled shaft for the first time;
Detected object leaves touch-controlled shaft for the first time;
The affirmation object is touched touch-controlled shaft for the first time and is moved during leaving for the first time touch-controlled shaft;
Initialization one gesture signal;
Detected object is touched touch-controlled shaft for the second time;
Calculating object leaves touch-controlled shaft for the first time to the time departure of touching for the second time touch-controlled shaft;
Confirm that time departure is less than a reference time;
Judge the zone of object touching touch-controlled shaft;
Confirm object touch for the second time have behind the touch-controlled shaft mobile;
Initialization one second hand signal;
Detected object leaves touch-controlled shaft for the second time; And
Finish described second hand signal.
14. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 13, it is characterized in that the step in the zone of described judgement object touching touch-controlled shaft comprises: the judgement object is touched the zone of touch-controlled shaft for the first time or is touched the zone of this touch-controlled shaft for the second time.
15. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 13 is characterized in that, the described first gesture signal packet is drawn together the signal in the zone of object touching touch-controlled shaft.
16. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 13 is characterized in that, the described second gesture signal packet is drawn together the signal and the object location information in the zone of object touching touch-controlled shaft.
17. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 16 is characterized in that described positional information comprises absolute coordinates or the relative coordinate or the rate of travel of object.
18. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 13 is characterized in that, also comprises: after the step of described end second hand signal, initialization 1 the 3rd hand signal.
19. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 18 is characterized in that, described the 3rd hand signal comprises the signal in the zone of object touching touch-controlled shaft.
20. the gesture detecting method in conjunction with the touch-controlled shaft of button and roller functions is characterized in that touch-controlled shaft is divided into a plurality of zones, each zone is corresponding with a button, and the method comprising the steps of:
Detect an object and touch touch-controlled shaft for the first time;
Detected object leaves touch-controlled shaft for the first time;
The affirmation object is touched touch-controlled shaft for the first time and is moved during leaving for the first time touch-controlled shaft;
Detected object is touched touch-controlled shaft for the second time;
Calculating object leaves touch-controlled shaft for the first time to the time departure of touching for the second time touch-controlled shaft;
Confirm that described time departure is less than a reference time;
Judge the zone of object touching touch-controlled shaft;
Detected object leaves touch-controlled shaft for the second time;
The affirmation object is touched touch-controlled shaft for the second time and is moved during leaving for the second time touch-controlled shaft, then is judged to be the double-click gesture.
21. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 20, it is characterized in that the step in the zone of described judgement object touching touch-controlled shaft comprises: the judgement object is touched the zone of touch-controlled shaft for the first time or is touched the zone of this touch-controlled shaft for the second time.
22. the gesture detecting method in conjunction with the touch-controlled shaft of button and roller functions is characterized in that touch-controlled shaft is divided into a plurality of zones, each zone is corresponding with a button, and the method comprising the steps of:
Detect an object and touch touch-controlled shaft for the first time;
Detected object leaves touch-controlled shaft for the first time;
The affirmation object is touched touch-controlled shaft for the first time and is moved during leaving for the first time touch-controlled shaft;
Initialization one first hand signal;
Detected object is touched touch-controlled shaft for the second time;
Calculating object leaves touch-controlled shaft for the first time to the time departure of touching for the second time touch-controlled shaft;
Confirm that described time departure is less than a reference time;
Safeguard described hand signal;
Judge the zone of object touching touch-controlled shaft;
Detected object leaves touch-controlled shaft for the second time;
The affirmation object is touched touch-controlled shaft for the second time and is moved during leaving for the second time touch-controlled shaft;
Finish described first hand signal; And
Initialization one second hand signal.
23. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 22, it is characterized in that the step in the zone of described judgement object touching touch-controlled shaft comprises: the judgement object is touched the zone of touch-controlled shaft for the first time or is touched the zone of touch-controlled shaft for the second time.
24. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 22 is characterized in that, the described second gesture signal packet is drawn together the signal in the zone of object touching touch-controlled shaft.
25. the gesture detecting method in conjunction with the touch-controlled shaft of button and roller functions is characterized in that touch-controlled shaft is divided into a plurality of zones, each zone is corresponding with a button, and the method comprising the steps of:
Detect an object and touch touch-controlled shaft for the first time;
Detected object leaves touch-controlled shaft for the first time;
The affirmation object is touched touch-controlled shaft for the first time and is moved during leaving for the first time touch-controlled shaft;
Initialization one first hand signal;
Detected object is touched touch-controlled shaft for the second time;
Calculating object leaves touch-controlled shaft for the first time to the time departure of touching for the second time touch-controlled shaft;
Confirm that described time departure is less than a reference time;
Judge the zone of object touching touch-controlled shaft;
Detected object leaves touch-controlled shaft for the second time;
The affirmation object is touched touch-controlled shaft for the second time and is moved during leaving for the second time touch-controlled shaft; And
Initialization one second hand signal.
26. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 25, it is characterized in that the step in the zone of described judgement object touching touch-controlled shaft comprises: the judgement object is touched the zone of touch-controlled shaft for the first time or is touched the zone of touch-controlled shaft for the second time.
27. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 25 is characterized in that, the described second gesture signal packet is drawn together the signal in the zone of object touching touch-controlled shaft.
28. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 25 is characterized in that, also comprises: after the step of initialization second hand signal, initialization 1 the 3rd hand signal.
29. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 28 is characterized in that, described the 3rd hand signal comprises the signal in the zone of object touching touch-controlled shaft.
30. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 28 is characterized in that, also comprises: after the step of initialization the 3rd hand signal, after a reference time, finish the 3rd hand signal.
31. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 25 is characterized in that, also comprises: after the step of initialization second hand signal, initialization 1 the 3rd hand signal, and initialization 1 the 4th hand signal.
32. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 31 is characterized in that, described the 3rd hand signal comprises the signal in the zone of object touching touch-controlled shaft.
33. the gesture detecting method of the touch-controlled shaft in conjunction with button and roller functions as claimed in claim 31 is characterized in that, described the 4th hand signal comprises the signal in the zone of object touching touch-controlled shaft.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB2006100004563A CN100480974C (en) | 2006-01-05 | 2006-01-05 | Method for detecting gesture by using touch-controlled shaft with press key and roller functions |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB2006100004563A CN100480974C (en) | 2006-01-05 | 2006-01-05 | Method for detecting gesture by using touch-controlled shaft with press key and roller functions |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN1996218A CN1996218A (en) | 2007-07-11 |
| CN100480974C true CN100480974C (en) | 2009-04-22 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CNB2006100004563A Expired - Fee Related CN100480974C (en) | 2006-01-05 | 2006-01-05 | Method for detecting gesture by using touch-controlled shaft with press key and roller functions |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN100480974C (en) |
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2006
- 2006-01-05 CN CNB2006100004563A patent/CN100480974C/en not_active Expired - Fee Related
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| CN1996218A (en) | 2007-07-11 |
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