CN103164137A - Identification method for cross-screen operation and electronic device - Google Patents
Identification method for cross-screen operation and electronic device Download PDFInfo
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- CN103164137A CN103164137A CN2011104216285A CN201110421628A CN103164137A CN 103164137 A CN103164137 A CN 103164137A CN 2011104216285 A CN2011104216285 A CN 2011104216285A CN 201110421628 A CN201110421628 A CN 201110421628A CN 103164137 A CN103164137 A CN 103164137A
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Abstract
The invention provides an identification method for cross-screen operation and an electronic device. The method includes that a first touch is detected through a first touch control screen, and whether the first touch exists continuously is judged. When the first touch disappears at the position close to a first edge, a virtual signal is issued continuously during a certain period of time to an operation system of the electronic device. Whether a second touch which is close to a second edge is detected by a second touch control screen during a certain period of time is judged. If the second touch is detected, issuing of the virtual signal is stopped, and a touch signal which corresponds to the second touch is sent to the operation system, and generation of the cross-screen operation which crosses the first touch control screen and the second touch control screen is judged by the operation system.
Description
Affiliated technical field
The present invention relates to a kind of operation recognition methods of electronic installation, relate in particular to the electronic installation of a kind of recognition methods across screen operator and use the method.
Background technology
Now, no matter at electronic apparatus, or on household electronic device, touch technology is common user interface (User Interface), and can operate electronic installation by the user interface of touch-control.For example, utilize this computer of touch-controlling interface Operational Note, or desktop computer.When the electronic installation that operates take touch-control as user interface, normally utilize shown icon on the finger taps screen, to carry out the corresponding execution instruction of icon.If wish moves an object in screen, utilize finger continue this object of touching the position in corresponding screen, then tow to the target location, to complete the action of mobile object.
Yet, if want to tow object in the system of multi-screen.For example, tow the video wall that object forms in multi-screen.When to carry out to object across the towing of screen the time, the path that tows can be through the edge of screen.At this moment, owing to the edge of general screen can't touching being reacted, therefore when object is towed to screen edge, can pull and lose efficacy carrying out because the edge of screen can't detect the user.
Summary of the invention
The invention provides a kind of recognition methods across screen operator, in order to identify operating across screen touch that the user carries out.
The invention provides a kind of electronic installation, it can identify and carry out operating across screen touch of user.
The present invention proposes a kind of recognition methods across screen operator, is used for having an electronic installation of one first Touch Screen and one second Touch Screen, wherein one second edge of one first edges abut the second Touch Screen of the first Touch Screen.Above-mentioned method comprises the following steps.The first, by the first Touch Screen detecting one first touching, and judge that whether first touch sustainable existence.The second, when disappearing near the first edge, continue to send a virtual signal to an operating system of electronic installation when the first touching in a special time.The 3rd, judge whether to be detected near one second of the second edge by the second Touch Screen in special time and touch.The 4th, if stop sending virtual signal, and a touching signal of corresponding the second touching be sent to operating system.The 5th, by operating system judge to produce cross over the first Touch Screen and the second Touch Screen one across screen operator.
In one embodiment of this invention, the above-mentioned recognition methods across screen operator also comprises the following steps.When the bee-line at a position and first edge of the first touching that detects for the last time during less than first default value, judge that the first touching is near the disappearance of the first edge.
The present invention proposes a kind of electronic installation, and it comprises an operating system, one first Touch Screen, one second Touch Screen and a multi-screen control module.The first Touch Screen has one first edge.The second Touch Screen has one second edge, and the second edge and the first edges abut.The multi-screen control module connects the first Touch Screen, the second Touch Screen and operating system.Wherein, when the first Touch Screen continues to detect one first touching, the multi-screen control module is judging that the first touching is when disappearing near the first edge, continue to send a virtual signal to operating system in a special time, and detect one second when touching near the second edge at the second Touch Screen in special time, the multi-screen control module stops sending virtual signal, and a touching signal of corresponding the second touching is sent to operating system, with judged by operating system produce cross over the first Touch Screen and the second Touch Screen one across screen operator.
Based on above-mentioned, the present invention proposes a kind of recognition methods across screen operator and utilizes the electronic installation of the method, utilize to transmit virtual signal by operating system can effectively identify the user across screen operator, and need to be on electronic installation extra mounting software or retouching operation system.
Description of drawings
Fig. 1 is the schematic diagram of the electronic installation of one embodiment of the invention.
Fig. 2 is the process flow diagram across the recognition methods of screen operator of one embodiment of the invention.
Fig. 3 A to Fig. 3 C is the schematic diagram across screen operator of one embodiment of the invention.
Fig. 4 is the schematic diagram of the electronic installation of another embodiment of the present invention.
Fig. 5 is the schematic diagram of the electronic installation of further embodiment of this invention.
The primary clustering symbol description:
100: electronic installation
110: the first Touch Screens
120: the second Touch Screens
130: the multi-screen control module
140: operating system
S210~S260: step
123: the specific region
FEG: the first edge
SEG: the second edge
FP: the first default value
SP: the second default value
FGR: finger
431: control module
433,533: driver
535: the first screen control unit
537: the second screen control unit
Embodiment
For purpose of the present invention, feature and advantage can be become apparent, hereinafter by specific embodiment, and coordinate accompanying drawing, be described in detail as follows.
Fig. 1 is the schematic diagram of the electronic installation 100 of one embodiment of the invention.Please refer to Fig. 1, electronic installation 100 comprises the first Touch Screen 110, the second Touch Screen 120, multi-screen control module 130 and operating system 140.Wherein, the second edges abut of having of the first edge of having of the first Touch Screen 110 and the second Touch Screen 120.In detail, the first Touch Screen 110 and the second Touch Screen 120 can interconnect by links such as pivot or rotating shafts, make the first edge be adjacent to the second edge.Perhaps, the first Touch Screen 110 can not be connected mutually with the second Touch Screen 120 yet, but during for state side by side, makes the first edge be adjacent to the second edge the first Touch Screen 110 and the second Touch Screen 120 ornaments the user.
For instance, the first Touch Screen 110 and the second Touch Screen 120 can show the part of same window picture separately, and the second edge of the first edge of the first Touch Screen 110 and the second Touch Screen 120 side by side after, make window picture can consist of the complete picture that extends to continuously the second Touch Screen 120 from the first Touch Screen 110.In another example, the first Touch Screen 110 and the second Touch Screen 120 can show the different operating window separately, but can be by user's operation, and causing has interactive relation between two different windows.For example, the object with the window of the first Touch Screen 110 moves in the window of the second Touch Screen 120.
In addition, multi-screen control module 130 connects the first Touch Screen 110 and the second Touch Screen 120.Multi-screen control module 130 is sent to operating system 140 in order to the touching signal that will react user's touching, or virtual signal is sent to operating system 140 under proper condition.
In order to further illustrate the detailed function mode of electronic installation 100, below come especially exemplified by another embodiment that the present invention will be described.
Fig. 2 is the process flow diagram across the recognition methods of screen operator of one embodiment of the invention.Please in the lump with reference to Fig. 1 and Fig. 2, at first, touch (step S210) by the first Touch Screen 110 detectings first.Then as shown in step S220, multi-screen control module 130 judges that repeatedly whether first touch sustainable existence.In detail, as long as the first Touch Screen 110 has the touching that detects the user, the first Touch Screen 110 just can send the touching signals of correspondence touching to multi-screen control module 130.Therefore multi-screen control module 130 can receive that constantly touching signals judges whether sustainable utilization finger (or input tool) touching the first Touch Screen 110 of user by whether having.
In case 130 judgement the first touchings of multi-screen control module disappear, then as shown in step S225, multi-screen control module 130 judges whether the first touching is disappearing near the first edge.
If multi-screen control module 130 judgement the first touching is not to disappear near the first edge, finish the flow process across the recognition methods of screen operator of the present embodiment.
If 130 judgement the first touchings of multi-screen control module as shown in step S230, continue to send virtual signal to the operating system 140 of electronic installation 100 by multi-screen control module 130 disappearing near the first edge in special time.In this step, multi-screen control module 130 can obtain the first Touch Screen 110 and detect for the last time for first when touching, and the first touching is the screen coordinate position on the first Touch Screen 110 (below be referred to as first screen coordinate position).In detail, because the first Touch Screen 110 can be constantly (for example, every a predetermined period) send the touching signals of respective user touching to multi-screen control module 130, and this touching signal can comprise the screen coordinate position that the user touches, therefore do not receive the time of touching signals when multi-screen control module 130 and surpass this predetermined period, represent that the first Touch Screen 110 has not detected any touching again, the touching signal that this moment, multi-screen control module 130 can will be received for the last time included screen coordinate position is defined as the first screen coordinate position.And in the present embodiment, the virtual signal that is sent to operating system 140 can comprise the first screen coordinate position.In the case, because operating system 140 still constantly receives virtual signal, operating system 140 can think and still have object to continue touching on the first screen coordinate position of the first Touch Screen 110, therefore still can make corresponding reaction in the first screen coordinate position.For example, if the user before (for example chose an object by the first Touch Screen 110, application icon) and then drag it to the first screen coordinate position, continue to receive virtual signal during, this object of operating system 140 military orders remains on the state that is selected.
Next as shown in step S240, multi-screen control module 130 judges whether to be detected near second of the second edge by the second Touch Screen 120 in special time and touches.The meaning is whether judgement user in special time touches the edge that is abutted to the first Touch Screen 110 on the second Touch Screen 120.If the second Touch Screen 120 does not detect the second touching near the second edge in special time, operating system 140 judges that the user does not carry out the touching operation across screen.At this moment, finish the flow process across the recognition methods of screen operator of the present embodiment.
If judgment result is that of step S240 is that as shown in step S250, multi-screen control module 130 stops sending virtual signal, and the touching signal of corresponding the second touching is sent to operating system 140.Also namely, in this step, the signal that operating system 140 receives will change the touching signal that reacts on the second touching into by virtual signal.Then in step S260, operating system 140 judge produce cross over the first Touch Screens 110 and the second Touch Screen 120 across screen operator.In other words, with the angle of operating system 140 can think the user take the first Touch Screen 110 as the touching starting point, and make from the first Touch Screen 110 be across to the second Touch Screen 120 across screen operator.Operating system 140 can be carried out corresponding action across screen operator on electronic installation 100.For example, if the user has towed to an object the first screen coordinate position of the first Touch Screen 110, operating system 140 will tow to the second Touch Screen 120 to object from the first Touch Screen 110 in the mode of towing.Further, because multi-screen control module 130 can comprise that at the touching signal that step S250 sends operating system 140 to second touches the screen coordinate position on the second Touch Screen 120, so operating system 140 can above rhemes be put the object that demonstration is towed to the second Touch Screen 120.
In the above-described embodiments, special time can be 1 second, but the present invention is not as limit.Furthermore, special time is for example that the general user carried out across screen operator required averaging time, can be by experiment or statistics and getting, and be stored in advance electronic installation 100.In other embodiments, the user also can come according to personal habits the length of self-defining special time.
Below will illustrate how multi-screen control module 130 judges whether the first touching is disappearing near the first edge with Fig. 3 A, and illustrate with Fig. 3 B, Fig. 3 C how multi-screen control module 130 judges whether the second Touch Screen 120 detects the second touching near the second edge.
As shown in Figure 3A, the second edge SEG adjacency of the first edge FEG of the first Touch Screen 110 and the second Touch Screen 120.Suppose that the first Touch Screen 110 detects the position of the first touching for the last time as shown in finger F GR, due to the bee-line of finger F GR and the first edge FEG less than the first default value FP, therefore multi-screen control module 130 judges that the first touching is to disappear near the first FEG place, edge, then just can transmit virtual signal to operating system 140 in special time.In other words, when the first Touch Screen 110 can't detect for first when touching again, multi-screen control module 130 can judgement detects the bee-line of the position of finger F GR and the first edge FEG for the last time whether less than the first default value FP.If judge that the first touching is to disappear near the first FEG place, edge.
It is respectively the definition mode of two kinds of specific regions in Fig. 3 B and Fig. 3 C.
As shown in Fig. 3 B, specific region 123 (indicating take oblique line at Fig. 3 B) is that the identical and width of the length with the second edge SEG is the rectangular area of the second default value SP.In the present embodiment, when multi-screen control module 130 must judge whether in special time to detect the second touching near the second edge SEG by the second Touch Screen 120, be to judge whether to detect by the second Touch Screen 120 the second touching that is arranged in specific region 123 in special time.The second touching is arranged in specific region 123 and represents that just the bee-line of itself and the second edge SEG is less than the second default value SP.
In the embodiment of Fig. 3 C, specific region 123 (indicating with oblique line at Fig. 3 C) be length less than the length of the second edge SEG, but width is the rectangular area of the second default value SP.Wherein aforesaid rectangular area comes across the position of the first Touch Screen 110 near the first touching before last.Namely, the height at center, rectangular area comes across the height of the first Touch Screen 110 with the first touching before last identical.Furthermore, multi-screen control module 130 can obtain the first screen coordinate position that the first Touch Screen 110 detects first when touching first touching for the last time, (for example then obtain on the second Touch Screen 120 the second screen coordinate position of contiguous the first screen coordinate position, the height of two coordinate positions equates), and definition comprises the specific region of the second screen coordinate position on the second Touch Screen 120.As Fig. 3 B embodiment, in the present embodiment, multi-screen control module 130 also judges whether to detect by the second Touch Screen 120 the second touching that is arranged in specific region 123 in special time.And the second touching is arranged in specific region 123 and represents that just the bee-line of itself and the second edge SEG is less than the second default value SP.
For instance, the length of the first above-mentioned default value FP and the second default value SP is about 50 pixels.But the value of the first default value FP and the second default value SP can be according to the size decision of the first touching screen 110 and the second touching screen 120, and the first default value FP of the present invention and the second default value SP are not limited to 50 pixels.What must specify is, the specific region 123 of the embodiment of the present invention is near the first screen coordinate position, but shape size can be made by oneself by the user, and is not limited to above-mentioned scope.
Below will be illustrated the embodiment of the multi-screen control module 130 of electronic installation 100 with Fig. 4 and Fig. 5.
As shown in Figure 4, the multi-screen control module 130 of the present embodiment comprises control module 431 and driver 433.Control module 431 connects the first Touch Screen 110 and the second Touch Screen 120, and driver 433 connection control units 431 and operating system 140.Please merge with reference to Fig. 2 and Fig. 4, when when carrying out the step S225 of Fig. 2, the present embodiment is to judge by control module 431 whether the first touching is disappearing near the first edge.When control module 431 is judged the first touching when disappearing near the first edge, also continued to produce the virtual signal that is sent to operating system 140 by control module 431 in special time.Perhaps, in another embodiment, judging the first touching when disappearing near the first edge when control module 431, is to be continued to produce the virtual signal that is sent to operating system 140 in special time by driver 433.When carrying out the step S240 of Fig. 2, be to judge by control module 431 whether the second Touch Screen 120 detects the second touching near the second edge in special time.Judge that at control module 431 the second Touch Screens 120 detect under strong condition near second touching at the second edge in special time, just can carry out the action of step S250 by the control module 431 or the driver 433 that produce virtual signal, also namely stop producing virtual signal.
As shown in Figure 5, the multi-screen control module 130 of the present embodiment comprises the first screen control unit 535, the second screen control unit 537 and driver 533.The first screen control unit 535 connects the first Touch Screen 110, the second screen control unit 537 and connects the second Touch Screens 120, and driver 533 connects the first screen control unit 535, the second screen control unit 537 and operating system 140.Please merge with reference to Fig. 2 and Fig. 5.In step S225, judge by the first screen control unit 535 whether the first touching is disappearing near the first edge.If first screen control unit 535 judgement the first touchings are continued to produce the virtual signal that is sent to operating system 140 in special time by driver 533 when disappearing near the first edge.When entering step S240, the second screen control unit 537 judges whether the second Touch Screen 120 detects the second touching near the second edge in special time.Then, judge in the second screen control unit 537 when the second Touch Screens 120 detect the second touching near the second edge in special time, enter into step S250, driver 533 stops producing virtual signal.
In sum, the present invention proposes a kind of recognition methods across screen operator and utilizes the electronic installation of the method.This recognition methods is to utilize electronic installation when detecting user's touching disappears to screen edge, the first screen coordinate when record disappears.And continue to send virtual signal in special time, cause operating system that virtual signal is reacted and continue to carry out original corresponding touch action.On the other hand, if within above-mentioned special time, when electronic installation detects user's touching at another screen, stop transmitting virtual signal and with real touching signal to operating system.At this moment, operating system judges that the user carries out across screen operator, and still sustainable by inner touching operation mechanism itself, carries out smoothly corresponding action across screen operator on electronic installation.Accordingly, avoid to continue the detecting touching because user's finger skids off screen edge, cause operating system erroneous judgement touching operation to stop.Also therefore, across On-Screen Identification method and electronic installation, can effectively identify the user across the operation of screen by of the present invention.Further, do not need extra mounting software or change operating system yet, can solve the touch control operation problem of multi-screen.
Although the present invention discloses as above with embodiment; but it is not to limit the present invention, any those of skill in the art, without departing from the spirit and scope of the present invention; when doing a little modification and variation, therefore protection scope of the present invention is when being as the criterion with defining of claims.
Claims (10)
1. recognition methods across screen operator is used for having an electronic installation of one first Touch Screen and one second Touch Screen, one second edge of one first this second Touch Screen of edges abut of this first Touch Screen wherein, and the method comprises:
By this first Touch Screen detecting one first touching, and judge that whether this first touch sustainable existence;
When disappearing near this first edge, continue to send a virtual signal to an operating system of this electronic installation when this first touching in a special time;
Judge whether to be detected near one second of this second edge by this second Touch Screen in this special time and touch;
If, stop sending this virtual signal, and will be to being sent to this operating system by second a touching signal of touching; And
By this operating system judge produce cross over this first Touch Screen and this second Touch Screen one across screen operator.
2. the method for claim 1, is characterized in that, also comprises:
When the bee-line at a position and this first edge of this first touching that detects for the last time during less than first default value, judge that this first touching is near this first edge disappearance.
3. the method for claim 1, is characterized in that, judges whether that wherein this second step touched that is detected near this second edge by this second Touch Screen in this special time comprises:
Judge whether in this special time to be detected and this second touching less than one second default value of the bee-line at this second edge by this second Touch Screen.
4. the method for claim 1, is characterized in that, judges whether that wherein this second step touched that is detected near this second edge by this second Touch Screen in this special time comprises:
Obtain this first Touch Screen and detect for the last time this first when touching, one first screen coordinate position of this first touching;
Obtain on this second Touch Screen one second screen coordinate position of contiguous this first screen coordinate position;
Definition comprises a specific region of this second screen coordinate position on this second Touch Screen; And
Judge whether to detect by this second Touch Screen this second touching that is positioned at this specific region in this special time.
5. electronic installation comprises:
One operating system;
One first Touch Screen has one first edge;
One second Touch Screen has one second edge, and this second edge and this first edges abut; And
One multi-screen control module connects this first Touch Screen, this second Touch Screen and this operating system;
wherein, when this first Touch Screen continues to detect one first touching, this multi-screen control module is judging that this first touching is when disappearing near this first edge, continue to send a virtual signal to this operating system in a special time, and detect one second when touching near this second edge at this second Touch Screen in this special time, this multi-screen control module stops sending this virtual signal, and will be to being sent to this operating system by second a touching signal of touching, with judged by this operating system produce cross over this first Touch Screen and this second Touch Screen one across screen operator.
6. electronic installation as claimed in claim 5, it is characterized in that, the bee-line at a position and this first edge that detects for the last time this first touching when this first Touch Screen is during less than first default value, and this multi-screen control module judges that this first touching is near this first edge disappearance.
7. electronic installation as claimed in claim 5, it is characterized in that, this multi-screen control module is being sent this virtual signal to this operating system, judges whether this second Touch Screen detects in this special time and this second touching less than one second default value of the bee-line at this second edge.
8. electronic installation as claimed in claim 5, it is characterized in that, this multi-screen control module obtains the one first screen coordinate position that this first Touch Screen detects this first touching of this first when touching for the last time, obtain on this second Touch Screen one second screen coordinate position of contiguous this first screen coordinate position, and definition comprises a specific region of this second screen coordinate position on this second Touch Screen;
This multi-screen control module is being sent this virtual signal to this operating system, judges whether this second Touch Screen detects this second touching that is positioned at this specific region in this special time.
9. electronic installation as claimed in claim 5, is characterized in that, this multi-screen control module comprises:
One control module, connect this first Touch Screen and this second Touch Screen, judging that whether this first touching is disappearing near this first edge, and judge whether this second Touch Screen detects this second touching near this second edge in this special time; And
One driver, connect this control module and this operating system, judge that at this control module this first touching is when disappearing near this first edge, one of them continues to produce this virtual signal that is sent to this operating system this control module and this driver in this special time, and judge that at this control module this second Touch Screen detects this second when touching near this second edge in this special time, stop producing this virtual signal.
10. electronic installation as claimed in claim 5, is characterized in that, this multi-screen control module comprises:
Whether one first screen control unit connects this first Touch Screen, disappearing near this first edge to judge this first touching;
One second screen control unit connects this second Touch Screen, whether detects this second touching near this second edge to judge this second Touch Screen in this special time; And
One driver connects this first screen control unit, this second screen control unit and this operating system;
Wherein judge that in this first screen control unit this first touching is when disappearing near this first edge, this driver continues to produce this virtual signal that is sent to this operating system in this special time, and judge that in this second screen control unit when this second Touch Screen detects this second touching near this second edge in this special time, this driver stops producing this virtual signal.
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| CN201110421628.5A CN103164137B (en) | 2011-12-15 | 2011-12-15 | Across recognition methods and the electronic installation of screen operator |
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| CN201110421628.5A CN103164137B (en) | 2011-12-15 | 2011-12-15 | Across recognition methods and the electronic installation of screen operator |
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| CN109032486B (en) * | 2018-07-10 | 2021-01-22 | 维沃移动通信有限公司 | Display control method and terminal equipment |
| CN111104078A (en) * | 2018-10-29 | 2020-05-05 | 华硕电脑股份有限公司 | Control method, electronic device and non-transitory computer readable recording medium device |
| CN111104078B (en) * | 2018-10-29 | 2023-04-25 | 华硕电脑股份有限公司 | Control method, electronic device and non-transitory computer readable recording medium device |
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