CN102915186A - Control method, control device, and electronic device - Google Patents
Control method, control device, and electronic device Download PDFInfo
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- CN102915186A CN102915186A CN2012103706703A CN201210370670A CN102915186A CN 102915186 A CN102915186 A CN 102915186A CN 2012103706703 A CN2012103706703 A CN 2012103706703A CN 201210370670 A CN201210370670 A CN 201210370670A CN 102915186 A CN102915186 A CN 102915186A
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Abstract
The invention provides a control method which is used in an electronic device; the control method comprises the following steps: sensing the distance from an object to a reference point of the electronic device, and generating a control instruction to the electronic device according to the distance from the object to the reference point, so as to control the electronic device to fulfill a corresponding function.
Description
The application be that Dec 24, application number in 2009 are 200910259794.2 the applying date, denomination of invention divides an application for the application for a patent for invention of " control method, control device and electronic installation ".
Technical field
The present invention relates to a kind of control method, control device and electronic installation, espespecially a kind of intuitive control, control method, control device and electronic installation of raising operation entertaining and ease of use of providing.
Background technology
That touch control display apparatus has is easy to operate, reaction velocity reaches joint space-efficient advantage soon, the user can be provided more intuition and control mode easily, thereby become important input interface, and be widely used in the various consumption electronic products electronic products such as personal digital assistant, intelligent device for mobile communication, notebook and point of sale terminal (POST) (POS).Simultaneously, along with the progress of touch technology, traditional single-point touch mode has been evolved to the multi-point touch mode, to realize the more control mode of intuition.
For instance, please refer to Figure 1A and Figure 1B, Figure 1A and Figure 1B are the known schematic diagram that operates an intelligent device for mobile communication 10 in the multi-point touch mode.In Figure 1A and Figure 1B, the user controls intelligent device for mobile communication 10 with thumb and forefinger to Show Picture.When the user with thumb and forefinger from inside to outside separately the time, picture can amplify, shown in Figure 1A.Otherwise, when the user with thumb and forefinger ecto-entad near the time, picture can dwindle, as shown in Figure 1B.
By the multi-point touch mode, the user can control intelligent device for mobile communication 10 with thumb and forefinger simultaneously, has not only realized intuitive control, has more improved operation entertaining.Yet, for handicapped, physical handicaps or under some was used, the user possibly can't control simultaneously a plurality of touch points or do larger action, causes the usable range of multi-point touch mode limited.
Summary of the invention
Therefore, fundamental purpose of the present invention is to propose a kind of control method, control device and electronic installation.
The present invention proposes a kind of control method, is used for an electronic installation, includes detecting one object to the distance of a reference point of this electronic installation; And according to the distance of this object to this reference point, produce a steering order and give this electronic installation, carry out a corresponding function to control this electronic installation.
The present invention proposes a kind of control device in addition, is used for an electronic installation, includes a range cells, is used for detecting an object to the distance of a reference point of this electronic installation, to produce a detecting result; And an instruction generation unit, be used for producing a steering order and giving this electronic installation according to this detecting result, carry out a corresponding function to control this electronic installation.
The present invention proposes a kind of electronic installation in addition, but lifting operation efficient includes a running circuit; One screen; An and control device.This control device includes a range cells, is used for detecting an object to the distance of a reference point of this screen, to produce a detecting result; And an instruction generation unit, be used for according to this detecting result, produce a steering order and give this running circuit, carry out a corresponding function to control this running circuit.
Description of drawings
Figure 1A and Figure 1B are known schematic diagram with multi-point touch mode operative intelligence type device for mobile communication.
Fig. 2 is the functional block diagram of the embodiment of the invention one control device.
Fig. 3 A and Fig. 3 B are front and the side schematic view of the embodiment of the invention one intelligent device for mobile communication.
Fig. 4 A, Fig. 4 B, Fig. 5 A and Fig. 5 B are the schematic diagram of the intelligent device for mobile communication of application drawing 3A.
Fig. 6 is the schematic diagram that the intelligent device for mobile communication of Fig. 3 A comprises three reference point.
Fig. 7 is the schematic diagram of the embodiment of the invention one control flow.
Wherein, description of reference numerals is as follows:
10,30 intelligent device for mobile communication
20 control device
200 range cells, 202 instruction generation units
OBJ object P_ref reference point
DT distance R ST detects the result
CMD steering order FGR finger
RS_1, RS_2, RS_3 detector
70 control flows
700,702,704,706 steps
Embodiment
Please refer to Fig. 2, Fig. 2 is the functional block diagram of the embodiment of the invention one control device 20.Control device 20 is used for controlling an electronic installation, and this electronic installation can be common portable electronic devices, such as personal digital assistant, intelligent device for mobile communication, notebook etc., but not as limit.Control device 20 includes a range cells 200 and an instruction generation unit 202.Range cells 200 can be common distance sensing assembly, is used for detecting the distance D T of object OBJ to a reference point P_ref, with produce one the detecting as a result RST give instruction generation unit 202.202 of instruction generation units produce corresponding steering order CMD according to detecting RST as a result.
In simple terms, control device 20 is according to the distance D T of object OBJ to reference point P_ref, produces corresponding steering order CMD, if this concept is applied in the portable electronic devices, then can realize being rich in the mode of operation of entertaining.For instance, please refer to Fig. 3 A and Fig. 3 B, Fig. 3 A and Fig. 3 B are front and the side schematic view of the embodiment of the invention one intelligent device for mobile communication 30.Installed control device 20 as shown in Figure 2 in the intelligent device for mobile communication 30, it can according to the distance H of external object (take a finger FGR as example) with screen, carry out specifically operation.Should be noted, for ease of concept of the present invention is described, in Fig. 3 A and Fig. 3 B, control device 20 with respect to the setting position of intelligent device for mobile communication 30 slightly and do not show, in the hope of succinctly.
In intelligent device for mobile communication 30, detect the variation of distance H when control device 20 after, intelligent device for mobile communication 30 can be carried out different runnings according to the instruction CMD of control device 20, even can realize the effect as multi-point touch.That is to say, the user only needs to be toward or away from by single finger the screen of intelligent device for mobile communication 30, can carry out the control effect of multi-point touch.For example, when control device 20 detect finger F GR near the time, intelligent device for mobile communication 30 can be according to the instruction CMD of control device 20, the picture that enlarging screen is shown or picture, namely shown in Fig. 4 A, and in finger F GR away from the time, dwindle the shown picture of screen or picture, shown in Fig. 4 B.Thus, by finger F GR(or other object) approach or away from, the size of user's capable of regulating picture or picture has not only realized intuitive control, has more improved operation entertaining.The more important thing is, cause the user can't control simultaneously a plurality of touch points or when doing larger action, the present invention can provide the manipulation effect of a plurality of touch points equally for handicapped, physical handicaps or some restricted application, the convenience when using.
Should be noted, Fig. 4 A and Fig. 4 B are the operation embodiment that illustrates that intelligent device for mobile communication 30 is possible, it is according to the distance H of finger F GR to screen that fundamental purpose is to set forth the present invention, control the running of intelligent device for mobile communication 30, the variation of every according to this concept all belongs to category of the present invention.For example, in Fig. 5 A, when finger F GR was close, intelligent device for mobile communication 30 was to dwindle the shown picture of screen or picture; And in Fig. 5 B, when finger F GR away from the time, intelligent device for mobile communication 30 is the shown picture of enlarging screen or picture.In addition, the detecting as a result content of RST can be the Distance Judgment result of each time, or the variable in distance situation in the special time.
In addition, for fear of the display frame of intelligent device for mobile communication 30 convergent-divergent too frequently, also can increase other controlled condition.For example, when specific program (such as browser programs such as photo, webpages) is opened, or specific keys, switch is switched or graphic interface when being clicked, and just starts control device 20 functions.
Moreover except the size of control display picture, intelligent device for mobile communication 30 also can be according to the distance of finger F GR and screen, and control is such as special types such as volume, screen intensity, contrasts, or increasing other assembly reaches special-effect.For example, can be outside intelligent device for mobile communication 30 shell increase luminescence component, when finger F GR near the time luminous, away from the time dimmed or send out the light of different colours.
On the other hand, when realizing control device 20, also should be required according to system, suitably design range cells 200 and instruction generation unit 202, or adjust its operational logic.Take Fig. 2 as example, in the time of can setting distance D T as object OBJ and reference point P_ref less than a particular value, range cells 200 just begins to detect or repay as a result RST of detecting, to save system resource.In addition, the detecting that range cells 200 is exported as a result RST can also adopt analog information except being the value (such as 5.6 centimeters, 3 English inch etc.) of distance D T, such as voltage, electric current, or employing numerical information, such as scale-of-two, hexadecimal value etc., represent it.Simultaneously, the implementation of range cells 200 also is not limited to particular technology; For example, if adopt the infrared sensing mode, then range cells 200 is the heat energy by reference point P_ref object sensing OBJ, and then judging distance DT; If adopt electromagnetism sensing mode, then range cells 200 is electromagnetic energy or the galvanomagnetic effects by reference point P_ref object sensing OBJ, and then judging distance DT; If adopt ultrasonic sensing mode, should launch a ultrasonic signal to object OBJ by electronic installation, then range cells 200 is to receive the signal that object OBJ reflects by reference point P_ref, with judging distance DT; And if adopt optics sensing mode, then range cells 200 is optical reflection or the optics fluctuations by reference point P_ref object sensing OBJ, with judging distance DT.Yet how judging distance DT only is means of the present invention, should be as limit.
In above stated specification, reference point P_ref is a bit in the electronic installation, and when realizing range cells 200, those skilled in the art can be required according to system, adjusts the position of reference point P_ref or increases other reference point.For example, in Fig. 6, intelligent device for mobile communication 30 is by being located at detector RS_1, RS_2, the RS_3 in three corners of screen, detecting respectively and the distance of pointing, and then pass through " triangle location ", judging the distance of screen and finger.
In addition, when applications ranging unit 200, also should cooperate the assembly of electronic installation, design suitable operating process, and be not limited only to above-mentioned example.For example, if should be in a display device, can be designed to when the user near the time, heighten the resolution of display device, away from the time, reduce resolution.Perhaps, if be applied to a guider, can be designed to when finger close, show detail map (reduction engineer's scale), away from the time, show summary map (heightening engineer's scale).
Therefore, by control device 20, the present invention can provide intuitive control, having improved operation entertaining, the more important thing is, is handicapped, physical handicaps or some restricted application for the user, the present invention can provide the manipulation effect of a plurality of touch points, the convenience during in order to use.The mode of operation of above-mentioned control device 20 can be summarized as a control flow 70, as shown in Figure 7.Control flow 70 comprises following steps:
Step 700: beginning.
Step 702: range cells 200 detecting object OBJ are to the distance of reference point P_ref, to produce as a result RST of detecting.
Step 704: instruction generation unit 202 produces steering order CMD according to detecting as a result RST, carries out a corresponding function with the control electronic installation.
Step 706: finish.
The detailed description of control flow 70 can with reference to aforementioned, be not repeated herein.
In sum, the present invention is the distance of the external object of detecting and reference point, and control according to this function of electronic installation, except intuitive control can be provided, improve outside the operation entertaining, be handicapped, physical handicaps or some restricted application for the user, more can improve the convenience when using.
The above only is preferred embodiment of the present invention, and all equalizations of doing according to claim of the present invention change and modify, and all should belong to covering scope of the present invention.
Claims (43)
1. a control method is used for an electronic installation, and this electronic installation comprises a luminescence component, it is characterized in that comprising the following step:
Detect an object to the distance of a reference point of this electronic installation; And
According to the distance of this object to this reference point, produce a steering order and give this electronic installation, adjust accordingly the shown luminance of this luminescence component to control this electronic installation.
2. control method as claimed in claim 1, it is characterized in that detecting this object to the step of the distance of this reference point of this electronic installation, be distance in this object to this reference point during less than a default value, start this object of detecting to the distance of this reference point of this electronic installation.
3. control method as claimed in claim 1, it is characterized in that detecting this object to the step of the distance of this reference point of this electronic installation, be when a trigger switch of this electronic installation is triggered, start this object of detecting to the distance of this reference point of this electronic installation.
4. control method as claimed in claim 1, it is characterized in that detecting this object to the step of the distance of this reference point of this electronic installation, in an infrared sensing mode, by the heat energy of this this object of reference point sensing, to detect this object to the distance of this reference point of this electronic installation.
5. control method as claimed in claim 1, it is characterized in that detecting this object to the step of the distance of this reference point of this electronic installation, in a ultrasonic sensing mode, launch a ultrasonic signal to this object by this electronic installation, and receive the signal that this object reflects by this reference point, to detect this object to the distance of this reference point of this electronic installation.
6. control method as claimed in claim 1, it is characterized in that detecting this object to the step of the distance of this reference point of this electronic installation, in an electromagnetism sensing mode, by the electromagnetic energy of this this object of reference point sensing, to detect this object to the distance of this reference point of this electronic installation.
7. control method as claimed in claim 1, it is characterized in that detecting this object to the step of the distance of this reference point of this electronic installation, in an optics sensing mode, by optical reflection or the optics fluctuation of this this object of reference point sensing, to detect this object to the distance of this reference point of this electronic installation.
8. control method as claimed in claim 1 is characterized in that this steering order more is used for controlling the size of the shown picture of this screen.
9. control method as claimed in claim 8, when it is characterized in that distance in this object to this reference point is greater than a default value, this steering order is used for amplifying this picture, and the distance in this object to this reference point is during less than this default value, and this steering order is used for dwindling this picture.
10. control method as claimed in claim 8, when it is characterized in that distance in this object to this reference point is greater than a default value, this steering order is used for dwindling this picture, and the distance in this object to this reference point is during less than this default value, and this steering order is used for amplifying this picture.
11. control method as claimed in claim 8, the variation that it is characterized in that the distance in this object to this reference point is during greater than a default value, this steering order is used for dwindling this picture, and the variation of the distance in this object to this reference point is during less than this default value, and this steering order is used for amplifying this picture.
12. control method as claimed in claim 8, the variation that it is characterized in that the distance in this object to this reference point is during greater than a default value, this steering order is used for amplifying this picture, and the variation of the distance in this object to this reference point is during less than this default value, and this steering order is used for dwindling this picture.
13. control method as claimed in claim 1 is characterized in that this shown luminance of this luminescence component is at least one among the shown bright degree With Yan look When of this luminescence component.
14. a control device is used for an electronic installation, it is characterized in that including:
One luminescence component;
One range cells is used for detecting an object to the distance of a reference point of this electronic installation, to produce
One detecting result; And
One instruction generation unit is used for producing a steering order and giving this electronic installation according to this detecting result, adjusts accordingly the shown luminance of this luminescence component to control this electronic installation.
15. control device as claimed in claim 14 is characterized in that this range cells is distance in this object to this reference point during less than a default value, starts this object of detecting to the distance of this reference point of this electronic installation.
16. control device as claimed in claim 14 is characterized in that this range cells is the variation of the distance in this object to this reference point during greater than a default value, starts this object of detecting to the distance of this reference point of this electronic installation.
17. control device as claimed in claim 14 is characterized in that this range cells is the variation of the distance in this object to this reference point during less than a default value, starts this object of detecting to the distance of this reference point of this electronic installation.
18. control device as claimed in claim 14 is characterized in that this range cells is when a trigger switch of this electronic installation is triggered, and starts this object of detecting to the distance of this reference point of this electronic installation.
19. control device as claimed in claim 14 is characterized in that this range cells is an infrared detector, is used in an infrared sensing mode, by the heat energy of this this object of reference point sensing, to detect this object to the distance of this reference point of this electronic installation.
20. control device as claimed in claim 14, it is characterized in that this electronic installation comprises a ultrasonic transmitter, be used for launching a ultrasonic signal to this object, this range cells is a Ultrasonic Vehicle Detector, be used in a ultrasonic sensing mode, receive the signal that this object reflects by this reference point, to detect this object to the distance of this reference point of this electronic installation.
21. control device as claimed in claim 14 is characterized in that this range cells is an electromagnetic energy detector, is used in an electromagnetism sensing mode, by the electromagnetic energy of this this object of reference point sensing, to detect this object to the distance of this reference point of this electronic installation.
22. control device as claimed in claim 14, it is characterized in that this range cells is an optical detecting device, be used in an optics sensing mode, by optical reflection or the optics fluctuation of this this object of reference point sensing, to detect this object to the distance of this reference point of this electronic installation.
23. control device as claimed in claim 14 is characterized in that this instruction generation unit produces this steering order, more to control the size of the shown picture of this screen.
24. control device as claimed in claim 23, it is characterized in that, show that in this detecting result this object is to the distance of this reference point during greater than a default value, this steering order that this instruction generation unit produces is used for amplifying this picture, and showing this object to the distance of this reference point during less than this default value in this detecting result, this steering order that this instruction generation unit produces is used for dwindling this picture.
25. control device as claimed in claim 23, it is characterized in that, show that in this detecting result this object is to the distance of this reference point during greater than a default value, this steering order that this instruction generation unit produces is used for dwindling this picture, and showing this object to the distance of this reference point during less than this default value in this detecting result, this steering order that this instruction generation unit produces is used for amplifying this picture.
26. control device as claimed in claim 23, it is characterized in that, show that in this detecting result this object is to the variation of the distance of this reference point during greater than a default value, this steering order that this instruction generation unit produces is used for amplifying this picture, and showing this object to the variation of the distance of this reference point during less than this default value in this detecting result, this steering order that this instruction generation unit produces is used for dwindling this picture.
27. control device as claimed in claim 23, it is characterized in that, show that in this detecting result this object is to the variation of the distance of this reference point during greater than a default value, this steering order that this instruction generation unit produces is used for dwindling this picture, and showing this object to the variation of the distance of this reference point during less than this default value in this detecting result, this steering order that this instruction generation unit produces is used for amplifying this picture.
28. control device as claimed in claim 14 is characterized in that this shown luminance of this luminescence component is at least one among the shown bright degree With Yan look When of this luminescence component.
29. an electronic installation, but lifting operation efficient is characterized in that including:
One running circuit;
One luminescence component;
One screen; And
One control device includes:
One range cells is used for detecting an object to the distance of a reference point of this screen, to produce a detecting result; And
One instruction generation unit is used for according to this detecting result, produces a steering order and gives this running circuit, adjusts accordingly the shown luminance of this luminescence component to control this running circuit.
30. electronic installation as claimed in claim 29 is characterized in that this range cells is distance in this object to this reference point during less than a default value, starts this object of detecting to the distance of this reference point.
31. electronic installation as claimed in claim 29 is characterized in that this range cells is the variation of the distance in this object to this reference point during greater than a default value, starts this object of detecting to the distance of this reference point.
32. electronic installation as claimed in claim 29 is characterized in that this range cells is the variation of the distance in this object to this reference point during less than a default value, starts this object of detecting to the distance of this reference point.
33. electronic installation as claimed in claim 29 is characterized in that this range cells is when a trigger switch of this electronic installation is triggered, and starts this object of detecting to the distance of this reference point.
34. electronic installation as claimed in claim 29 is characterized in that this range cells is an infrared detector, is used in an infrared sensing mode, by the heat energy of this this object of reference point sensing, to detect this object to the distance of this reference point.
35. electronic installation as claimed in claim 29, it is characterized in that this running circuit comprises a ultrasonic transmitter, be used for launching a ultrasonic signal to this object, this range cells is a Ultrasonic Vehicle Detector, be used in a ultrasonic sensing mode, receive the signal that this object reflects by this reference point, to detect this object to the distance of this reference point.
36. electronic installation as claimed in claim 29 is characterized in that this range cells is an electromagnetic energy detector, is used in an electromagnetism sensing mode, by the electromagnetic energy of this this object of reference point sensing, to detect this object to the distance of this reference point.
37. electronic installation as claimed in claim 29, it is characterized in that this range cells is an optical detecting device, be used in an optics sensing mode, by optical reflection or the optics fluctuation of this this object of reference point sensing, to detect this object to the distance of this reference point of this electronic installation.
38. electronic installation as claimed in claim 29 is characterized in that this steering order that this instruction generation unit produces more is used for controlling the size of the shown picture of this screen.
39. electronic installation as claimed in claim 38, it is characterized in that, show that in this detecting result this object is to the distance of this reference point during greater than a default value, this steering order that this instruction generation unit produces is used for amplifying this picture, and showing this object to the distance of this reference point during less than this default value in this detecting result, this steering order that this instruction generation unit produces is used for dwindling this picture.
40. electronic installation as claimed in claim 38, it is characterized in that, show that in this detecting result this object is to the distance of this reference point during greater than a default value, this steering order that this instruction generation unit produces is used for dwindling this picture, and showing this object to the distance of this reference point during less than this default value in this detecting result, this steering order that this instruction generation unit produces is used for amplifying this picture.
41. electronic installation as claimed in claim 38, it is characterized in that, show that in this detecting result this object is to the variation of the distance of this reference point during greater than a default value, this steering order that this instruction generation unit produces is used for amplifying this picture, and showing this object to the variation of the distance of this reference point during less than this default value in this detecting result, this steering order that this instruction generation unit produces is used for dwindling this picture.
42. electronic installation as claimed in claim 38, it is characterized in that, show that in this detecting result this object is to the variation of the distance of this reference point during greater than a default value, this steering order that this instruction generation unit produces is used for dwindling this picture, and showing this object to the variation of the distance of this reference point during less than this default value in this detecting result, this steering order that this instruction generation unit produces is used for amplifying this picture.
43. electronic installation as claimed in claim 29 is characterized in that this shown luminance of this luminescence component is at least one among the shown bright degree With Yan look When of this luminescence component.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2012103706703A CN102915186A (en) | 2009-12-24 | 2009-12-24 | Control method, control device, and electronic device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2012103706703A CN102915186A (en) | 2009-12-24 | 2009-12-24 | Control method, control device, and electronic device |
Related Parent Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN200910259794.2A Division CN102109947A (en) | 2009-12-24 | 2009-12-24 | Control method, control device and electronic device |
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| Publication Number | Publication Date |
|---|---|
| CN102915186A true CN102915186A (en) | 2013-02-06 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2012103706703A Pending CN102915186A (en) | 2009-12-24 | 2009-12-24 | Control method, control device, and electronic device |
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| CN105389100A (en) * | 2015-10-16 | 2016-03-09 | 苏州佳世达电通有限公司 | Display apparatus and operation method therefor |
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Application publication date: 20130206 |