CN104065988A - Multi-screen interaction control method and multi-screen interaction system thereof - Google Patents
Multi-screen interaction control method and multi-screen interaction system thereof Download PDFInfo
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- CN104065988A CN104065988A CN201310087110.1A CN201310087110A CN104065988A CN 104065988 A CN104065988 A CN 104065988A CN 201310087110 A CN201310087110 A CN 201310087110A CN 104065988 A CN104065988 A CN 104065988A
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Abstract
The invention provides a multi-screen interaction control method which is applied to a multi-screen interaction system thereof. According to the multi-screen interaction control method, a second display device which displays a full screen region displayed by a first display device into the multi-screen interaction system. When the second display device detects a touch signal at an initial touch position, a first region corresponding to the initial touch position in the full screen region is displayed in the second display device. When the second display device stops detecting the touch signal at a final touch position, a click position corresponding to the full screen region of the first display device is judged according to the relationship between the first region and the final touch position.
Description
Technical field
The present invention means a kind of multi-screen interactive control method and Multi-screen interaction system thereof, espespecially a kind of multi-screen interactive control method and Multi-screen interaction system thereof that can complete through single operation.
Background technology
For promoting the recreational and practicality of TV, intelligent TV (smart TV) is universal gradually.Intelligent TV comprises interface that can connecting Internet conventionally, and through show start-up routine (launcher) on picture, allow user play digital stream content except starting networking streaming application (as YouTube) through operation start program, also can see through other application program of startup and obtain the information on the Internet.
Along with the interaction function of intelligent TV (as browsing page, play etc.) day by day increases, user often wishes that intelligent TV can provide as the touch control operation as intelligent mobile phone or panel computer.Because the manufacturing cost of large-sized contact panel is too high, and user's operative intelligence type TV closely not conventionally, prior art thereby provide utilizes the hand-hold electronic device such as intelligent mobile phone, panel computer as the solution of control medium of controlling intelligent TV.For instance, in the prior art, hand-hold electronic device can be used as a device that is similar to the Trackpad of notebook computer.User can see through the cursor on hand-hold electronic device intelligent movable type TV, thereby utilizes the intelligent TV of hand-hold electronic device control.But, when user utilizes hand-held device to move cursor, often need repeatedly slide just can, by the cursor movement on intelligent TV to the position that wish is clicked, cause user's inconvenience.
In addition, prior art also can only show simple interface on hand-hold electronic device, as only shown application-specific or the certain menu bar (Menu bar) of intelligent TV.Though the method can precisely judge the operation that user institute wish is carried out, and has also limited the interaction between hand-hold electronic device and intelligent TV.
Further, hand-hold electronic device also can directly show the displaying contents corresponding to intelligent TV.Thus, user can see through click hand-hold electronic device and on intelligent TV corresponding position carry out click action.But, because the screen relatively intelligent type TV of hand-hold electronic device is little, in the time utilizing hand-hold electronic device to show in intelligent video screen all displaying contents, the displaying contents that user may identification hand-hold electronic device.What is more, in the time that user clicks, intelligent TV also cannot accurately be located the position that user institute wish is clicked, and then application program or the specific function cannot identification user wish carried out.
Prior art also provides a kind of and only shows in hand-hold electronic device the method that displaying contents is divided on intelligent TV top.In this prior art method, on intelligent TV, there is a choice box, hand-hold electronic device only shows the displaying contents in choice box.First user needs mobile and convergent-divergent choice box, and within the target that wish is clicked enters choice box, then, user just can click.In other words, user need to see through different gesture or hand-hold electronic device be switched to different patterns, just the choice box on removable, the intelligent TV of convergent-divergent or carry out click action.And user's sight line need to be switched between intelligent TV and hand-held device, to complete click, cause the operational inconvenience of user.
Summary of the invention
Therefore, the invention provides a kind of single operation that can see through and carry out multi-screen interactive control method and Multi-screen interaction system thereof interactive in multi-screen system, to offer succinctly multi-screen interactive mode of operation easily of user.
The present invention discloses a kind of multi-screen interactive control method, for a Multi-screen interaction system.This multi-screen interactive control method includes the full frame region that one first display unit is shown and is shown in one second display unit in this Multi-screen interaction system; When this second display unit begins position of touch while detecting a touching signals together, the first area corresponding to this initial position of touch in this full frame region is shown in to this second display unit; And when this second display unit is in the time that a final position of touch stops detecting this touching signals, according to the relation between this first area and this final position of touch, judge the click location corresponding to this full frame region of this first display unit.
The present invention separately discloses a kind of multifrequency interaction systems.This Multi-screen interaction system includes one first display unit, is used for showing a full frame region; And a less important interactive device, be electrically connected at this first display unit, be used for showing this full frame region and detecting one touching signals corresponding to this first display unit; Wherein, when this less important interactive device begins position of touch while detecting this touching signals together, this less important interactive device shows the first area corresponding to this initial position of touch in this full frame region; And when this second display unit is in the time that a final position of touch stops detecting this touching signals, this less important interactive device, according to the relation between this first area and this final position of touch, judges the click location corresponding to this full frame region of this first display unit.
Brief description of the drawings
Fig. 1 is the schematic diagram of the embodiment of the present invention one Multi-screen interaction system;
Fig. 2 A and Fig. 2 B are the schematic diagram that the Multi-screen interaction system one shown in Fig. 1 operates example;
Fig. 3 is the schematic diagram of another running example of the Multi-screen interaction system shown in Fig. 1;
Fig. 4 is the schematic diagram of another running example again of the Multi-screen interaction system shown in Fig. 1;
Fig. 5 is the flow chart of the embodiment of the present invention one multi-screen interactive control method.
Main element symbol description
| 10 | Multi-screen interaction system |
| 100、102 | Display unit |
| 50 | Multi-screen interaction method |
| 500~508 | Step |
| FCA | Full frame region |
| FTP | Final position of touch |
| FTP’ | Click location |
| MP | Motion track |
| RTP | Stop position of touch |
| RTP’ | Stop place |
| SA1~SA3 | Region |
| STP | Initial position of touch |
| STP’ | Original position |
Embodiment
Please refer to Fig. 1, Fig. 1 is the schematic diagram of the embodiment of the present invention one interaction systems 10.As shown in Figure 1, interaction systems 10 includes display unit 100,102.Display unit 100 is used for showing a full frame region FCA.Display unit 102 is electrically connected at display unit 100, is used for showing the content of the full frame region FCA showing corresponding to display unit 100 and detecting user's a touching signals.In this embodiment, display unit 100 is an intelligent TV, display unit 102 is a hand-hold electronic device (as intelligent mobile phone, panel computer), but not subject to the limits, and the electrically connect between its display unit 100 and 102 can be wired or wireless link again.When display unit 102 is in the time that an initial position of touch STP receives user's touching signals, display unit 102 can be switched the region SA1 corresponding to initial position of touch STP in the full frame region FCA of demonstration.Subsequently, when display unit 102 is in the time that a final position of touch FTP stops receiving touching signals, display unit 100 can judge that user click location FTP ' corresponding to final position of touch FTP in full frame region FCA carries out a clicking operation.Accordingly, user can, by the single once-through operation in display unit 102, control display unit 100, thereby allows user can see through the succinctly Multi-screen interaction system of mode control easily 10.
Specifically, please refer to Fig. 2 A and Fig. 2 B, Fig. 2 A and Fig. 2 B are a schematic diagram of Multi-screen interaction system 10 1 running examples.As shown in Figure 2 A, display unit 102 is the content showing corresponding to full frame region FCA in display unit 100 at the beginning.In this embodiment, due to display unit 100 for intelligent TV display unit 102 be hand-hold electronic device, the screen size of display unit 100 is large compared with the screen size of display unit 102, therefore in the time that display unit 102 shows the content corresponding to full frame region FCA, user possibly cannot the clearly content of the full frame region FCA of identification of transmission display device 102.But user still can carry out a touch-control action through finger or pointer by near the initial position of touch STP position that is positioned at its wish execution clicking operation.When display unit 102 is in the time that initial position of touch STP receives user's touching signals, display unit 102 can pass to display unit 100 by the relative position information between initial position of touch STP and full frame region FCA.The relative position information transmitting according to display unit 102, display unit 100 can judge the original position STP ' corresponding to initial position of touch STP in full frame region FCA, and makes display unit 102 switch original position STP ' region SA1 around in the full frame region FCA of demonstration.
Please refer to Fig. 2 B, because region SA1 is the part content of full frame region FCA, user is the content of identification region SA1 clearly, and then finger or pointer are moved to the final position of touch FTP of the position of wish execution clicking operation, and stops touching in final position of touch FTP.Meanwhile, display unit 102 continues a motion track MP of detecting touching signals, until in the time that final position of touch FTP display unit 102 stops receiving touching signals, display unit 102 can send the relative position information of final position of touch FTP and region SA1 to display unit 100.Accordingly, display unit 100 can judging area SA1 in corresponding to the click location FTP ' of final position of touch FTP, and carry out a click action in click location FTP '.Thus, user is transmission display device 102 only, completes the control program of Multi-screen interaction system 10 in once-through operation.
It should be noted that display unit 100 can, in the time obtaining original position STP ', show a cursor (as shown in Fig. 2 A, Fig. 2 B) in original position STP '.This cursor can be according to user's touching signals, and along with touch trajectory, MP moves, so that user confirms whether to be positioned at corresponding to the click location FTP ' of final position of touch FTP the position of wish execution clicking operation.
In addition, if region SA1 does not comprise the target that user's wish is clicked, user can see through quick sliding finger or pointer moving area SA1, so that display unit 102 displaying contents comprise the target that user's wish is clicked.Please refer to Fig. 3, Fig. 3 is the schematic diagram of Multi-screen interaction system 10 another running examples shown in Fig. 1.As shown in Figure 3, display unit 102 receives after touching signals in initial position of touch STP, and display unit 102 can be switched viewing area SA1 and continue the motion track MP of detecting touching signals toward the translational speed of all directions.When display unit 102 detects touching signals while exceeding a threshold speed TH_V toward the translational speed of a direction DIR, Hui You region, the region SA1 that display unit 102 shows becomes the region SA2 in Fig. 3 toward direction DIR translation.Thus, even if region SA1 does not at the beginning comprise the target that user's wish is clicked, user still can see through quick sliding finger or pointer, makes display unit 102 switchings show to contain and clicks order target area SA2.In other words, user's accessible operating area in once-through operation can obtain effective expansion.
Should be noted, the main spirits of above embodiment is to receive after user's touching signal, and then make less important display unit (as display unit 102) switch the displaying contents that shows the upper part of main display unit (as display unit 100), can be in touch control operation once in order to user, complete a control program of Multi-screen interaction system.According to different application, this area tool knows that the knowledgeable should implement suitable change and amendment according to this conventionally.For instance, in the above-described embodiments, user all uses and singly refers to or pointer operates.But Multi-screen interaction system 10 also can compatiblely refer to instruction or multi-finger gesture more.For example, when display unit 102 is in the time that initial position of touch STP receives touching signal, display unit 102 can not switched viewing area SA1 at once.If display unit 102 does not all receive other touching signals in a time critical values TH_T1 after initial position of touch STP receives touching signal, display unit 102 is switched viewing area SA1, to carry out aforementioned operation program.Otherwise, if display unit 102 receives another touching signals from other positions in time critical values TH_T1 after initial position of touch STP receives touching signal, display unit 102 judges the execution of user's wish refers to instruction or multi-finger gesture more, and display unit 102 is not switched viewing area SA1.How to differentiate and refer to that neck or the operating principle of multi-finger gesture should be this area tool and conventionally know that the knowledgeable knows more, for the sake of clarity, be not repeated herein.
On the other hand, in the time that Multi-screen interaction system 10 operates, if display unit 102 is switched after the SA1 of viewing area, user still cannot know identification displaying contents, and user can be switched the part region in the SA1 of viewing area again.Please refer to Fig. 4, Fig. 4 is the schematic diagram of Multi-screen interaction system 10 another running examples shown in Fig. 1.In Fig. 4, when display unit 102 detects touching signals and switches after the SA1 of viewing area, display unit 102 can continue the time of staying of detecting touching signals each position on motion track MP.In the time that the time of staying that touching signals is parked in a stop position of touch RTP exceedes a time critical values TH_T2, display unit 102 can be sent to display unit 100 by the relative position information that stops position of touch RTP and region SA1.According to the relative position information that stops position of touch RTP and region SA1, display unit 100 can judge a stop place RTP ', and makes display unit 102 SA1Zhong stop place, viewing area RTP ' region SA3 around.Accordingly, user can make after display unit 102 enlarged display area SA1, enlarged display area SA3 again.In other words, user can be in a touch control operation, and the region that repeatedly switching display device 102 shows, to reach the object of knowing identification display unit 102 displaying contents.
About mode interactive between the interior display unit 100 of Multi-screen interaction system 10 and display unit 102, can further be summarized as a multi-screen interactive control method 50.Please refer to Fig. 5, Fig. 5 is the schematic diagram of multi-screen interactive control method 50 in the embodiment of the present invention.If it should be noted that identical in fact result, multi-screen interactive control method 50 is not limited with the order of flow chart shown in Fig. 5.As shown in Figure 5, multi-screen interaction method 50 includes following steps:
Step 500: start.
Step 502: the full frame region that one first display unit is shown is shown in one second display unit in Multi-screen interaction system.
Step 504: when the second display unit begins position of touch while detecting a touching signals together, the first area corresponding to initial position of touch in full frame region is shown in to the second display unit.
Step 506: when the second display unit is in the time that a final position of touch stops detecting touching signals, according to the relation between first area and final position of touch, judge the click location corresponding to this full frame region of this first display unit.
Step 508: finish.
Accordingly, the first display unit can be carried out clicking operation in click location (click location FTP ' in corresponding to Fig. 2 B).In other words, user can be in once-through operation, sees through the control program (as amplified the operations such as demonstration, click) that the second display unit completes Multi-screen interaction system.The DOP detailed operating procedure of multi-screen interactive control method 50 can, with reference to above-mentioned, for the sake of clarity, be not repeated herein.
In sum, see through multi-screen interactive control method and Multi-screen interaction system thereof that above-described embodiment discloses, user can be in single once-through operation, completes operations such as amplifying demonstration, click, location, thereby reaches the object of controlling Multi-screen interaction system.Accordingly, the multi-screen interactive control method that above-described embodiment discloses and Multi-screen interaction system thereof can offer succinctly user easily and experience.
The foregoing is only preferred embodiment of the present invention, all equalizations of doing according to the present patent application the scope of the claims change and modify, and all should belong to covering scope of the present invention.
Claims (10)
1. a multi-screen interactive control method, for a Multi-screen interaction system, this multi-screen interactive control method comprises:
The full frame region that one first display unit is shown is shown in one second display unit in this Multi-screen interaction system;
When this second display unit begins position of touch while detecting a touching signals together, the first area corresponding to this initial position of touch in the full frame region of this first display unit is shown in to this second display unit; And
When this second display unit is in the time that a final position of touch stops detecting this touching signals, according to the relation between this first area and this final position of touch, judge the click location corresponding to this full frame region of this first display unit.
2. multi-screen interactive control method as claimed in claim 1, is characterized in that, separately comprises:
According to the full frame interregional relation of this initial position of touch and this second display unit, show a cursor in a relative position in this full frame region of this first display unit.
3. multi-screen interactive control method as claimed in claim 2, is characterized in that, separately comprises:
According to relation corresponding between a motion track of this touching signals and this first area, this cursor in this full frame region in mobile this first display unit.
4. multi-screen interactive control method as claimed in claim 1, is characterized in that, separately comprises:
Judge that a motion track of this touching signals is corresponding at least one translational speed of multiple directions; And
In the time that at least one translational speed, one first translational speed exceedes a speed threshold values, according to the first direction corresponding to this first translational speed in the plurality of direction, the position of the Zhong Gai first area, full frame region of mobile this first display unit.
5. multi-screen interactive control method as claimed in claim 1, it is characterized in that, when this second display unit is in the time that this initial position of touch detects this touching signals, the step that this first area corresponding to this initial position of touch in the full frame region of this first display unit is shown in to this second display unit comprises:
In the time that this initial position of touch of this second display unit detects this touching signals, calculate this touching signals and rest on the time of this initial position of touch; And
In the time that the time that this touching signals rests on this initial position of touch exceedes a touch-control threshold values, will in this full frame region of this first display unit, be shown in this second display unit corresponding to this first area of this initial position of touch.
6. multi-screen interactive control method as claimed in claim 1, is characterized in that, separately comprises:
Calculate this touching signals and rest on multiple time of staying of multiple positions in this first area; And
In the time that one first time of staying exceeded a stop threshold values in the plurality of time of staying, the second area corresponding to this first stop place in this first area is shown in to this second display unit.
7. a multifrequency interaction systems, comprises:
One first display unit, is used for showing a full frame region; And
One second display unit, is electrically connected at this first display unit, is used for showing this full frame region and detecting one touching signals corresponding to this first display unit;
Wherein, when this second display unit begins position of touch while detecting this touching signals together, this second display unit shows the first area corresponding to this initial position of touch in the full frame region of this first display unit; And when this second display unit is in the time that a final position of touch stops detecting this touching signals, according to the relation between this first area and this final position of touch, judge the click location corresponding to this full frame region of this first display unit.
8. multifrequency interaction systems as claimed in claim 7, it is characterized in that, this second display unit separately judges that a motion track of this touching signals is corresponding at least one translational speed of multiple directions, and in the time that this second display unit is judging that at least one translational speed, one first translational speed exceedes a speed threshold values, according to the first direction corresponding to this first translational speed in the plurality of direction, the position of the Zhong Gai first area, full frame region of mobile this first display unit.
9. multifrequency interaction systems as claimed in claim 7, it is characterized in that, this second display unit lies in time that this touching signals rests on this initial position of touch while exceeding a touch-control threshold values, and this first area corresponding to this initial position of touch in the full frame region of this first display unit is shown in to this second display unit.
10. multifrequency interaction systems as claimed in claim 7, it is characterized in that, this second display unit is separately calculated this touching signals and is rested on the multiple time of staying corresponding to multiple positions in this first area, and in the time that in the plurality of time of staying, one first time of staying exceeded a stop threshold values, this second display unit shows the second area corresponding to this first stop place in this first area.
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| CN201310087110.1A CN104065988A (en) | 2013-03-18 | 2013-03-18 | Multi-screen interaction control method and multi-screen interaction system thereof |
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| CN201310087110.1A CN104065988A (en) | 2013-03-18 | 2013-03-18 | Multi-screen interaction control method and multi-screen interaction system thereof |
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| CN106095367A (en) * | 2016-06-08 | 2016-11-09 | 深圳市国华识别科技开发有限公司 | Multi-screen interaction method and system |
| CN109101172A (en) * | 2017-10-10 | 2018-12-28 | 北京仁光科技有限公司 | Multi-screen ganged system and its interaction display methods |
| CN110913013A (en) * | 2019-12-06 | 2020-03-24 | 贵州电网有限责任公司 | Multi-screen interaction method and system |
| CN111381791A (en) * | 2020-03-03 | 2020-07-07 | 北京文香信息技术有限公司 | Interactive system, method, equipment and storage medium |
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Application publication date: 20140924 |