CN103677325A - Input method and device - Google Patents
Input method and device Download PDFInfo
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- CN103677325A CN103677325A CN201210322714.5A CN201210322714A CN103677325A CN 103677325 A CN103677325 A CN 103677325A CN 201210322714 A CN201210322714 A CN 201210322714A CN 103677325 A CN103677325 A CN 103677325A
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Abstract
The embodiment of the invention discloses an input method and device and relates to the field of electronic techniques. By the adoption of the input method and device, the situation that a user applies acting force on input equipment continuously can be avoided, the problem that the user is prone to fatigue and muscle strain after using the input equipment for a long time is solved, and user experience is improved. The input method comprises the steps that a first electronic device receives induction information sent by a sensor, wherein the sensor is a non-mechanical sensor and is used for converting information input by the user in a non-force-application mode into induction information; if the sensor sends the first induction information, a first order is sent to a second electronic device connected with the first electronic device, wherein the first order is used for execution of a first instruction by the second electronic device; if the sensor sends the second induction information, a second order is sent to the second electronic device connected with the first electronic device, wherein the second order is used for execution of a second instruction by the second electronic device, and the first order is different from the second order. The input method and device are suitable for receiving and processing data which are input by the user through the input equipment.
Description
Technical field
The present invention relates to electronic technology field, relate in particular to a kind of input method and device.
Background technology
Mouse is now conventional a kind of electronic equipment.Traditional mouse is all to adopt mechanical left and right press key at present, and user need to apply certain acting force to mousebutton, just can push button and make mouse to produce the electric signal that conducts to computing machine.
Under many use scenes, because needs are continuously applied acting force, user is using traditional mouse after a period of time, easily cause the fatigue of arm muscle group, for example: user is when the air mouse of using at present on the market, for arm and wrist, there is no center of effort, use after a period of time, be very easy to cause that wrist is tired, especially after pinning left button, drag again this action, need user to pass through finger left button is continued firmly, be very easy to tired, if things go on like this can cause arm muscular strain, affect user health.
Summary of the invention
Embodiments of the invention provide a kind of input method and device, can avoid user to be continuously applied acting force to input equipment, have extenuated easily fatigue of long-time use, and the problems such as muscular strain, have improved user experience.
For achieving the above object, embodiments of the invention adopt following technical scheme:
On the one hand, embodiments of the invention provide a kind of input method, comprising:
The induction information that the first electronic equipment receiving sensor sends, described induction information comprises the first induction information and the second induction information, described sensor is non-mechanics sensor, for the information that user is inputted by non-application of force means, is converted to induction information;
If what described sensor sent is described the first induction information, to the second electronic equipment being connected with described the first electronic equipment, send the first order, described the first order is carried out the first instruction for described the second electronic equipment;
If what described sensor sent is described the second induction information, to the second electronic equipment being connected with described the first electronic equipment, send the second order, described the second order is carried out the second instruction for described the second electronic equipment;
Wherein, described the first order is different with described the second order.
On the other hand, embodiments of the invention provide a kind of input media, comprising:
Receiver module, the induction information sending for receiving sensor, described induction information comprises the first induction information and the second induction information, described sensor is non-mechanics sensor, for the information that user is inputted by non-application of force means, is converted to induction information;
Sending module, if what send for described sensor be described the first induction information, sends the first order to the second electronic equipment being connected with the first electronic equipment, and described first orders and be used for described the second electronic equipment and carry out the first instruction;
Described sending module, if what also send for described sensor be described the second induction information, sends the second order to the second electronic equipment being connected with described the first electronic equipment, and described second orders and be used for described the second electronic equipment and carry out the second instruction;
Wherein, described the first order is different with described the second order.
The input method that the embodiment of the present invention provides and device, can receive by non-mechanics sensor user's triggering, so that the information that user is inputted by non-application of force means is converted to induction information, thereby avoid user to be continuously applied acting force to input equipment, extenuated long-time use easily tired, the problems such as muscular strain, have improved user experience.
Accompanying drawing explanation
In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, to the accompanying drawing of required use in embodiment be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.
The process flow diagram of a kind of input method that Fig. 1 provides for the embodiment of the present invention 1;
The process flow diagram of a kind of input method that Fig. 2 a provides for the embodiment of the present invention 2;
The structural representation of a kind of example that Fig. 2 a1 provides for the embodiment of the present invention 2;
The structural representation of the another kind of example that Fig. 2 a2 provides for the embodiment of the present invention 2;
The process flow diagram of the another kind of input method that Fig. 2 b provides for the embodiment of the present invention 2;
The process flow diagram of another input method that Fig. 2 c provides for the embodiment of the present invention 2;
The structural representation of a kind of input media that Fig. 3 provides for the embodiment of the present invention 3;
The structural representation of a kind of input media that Fig. 4 provides for the embodiment of the present invention 4.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, rather than whole embodiment.Embodiment based in the present invention, those of ordinary skills, not making all other embodiment that obtain under creative work prerequisite, belong to the scope of protection of the invention.
For making the advantage of technical solution of the present invention clearer, below in conjunction with drawings and Examples, the present invention is done
Describe in detail.
Embodiment 1
The embodiment of the present invention provides a kind of input method, and as shown in Figure 1, the method comprises:
The first electronic equipment can be input equipment in embodiments of the present invention, such as: mouse, keyboard etc.The second electronic equipment can be connected with input equipment and receive hardware device such as computing machine, the server etc. of the information of transmitting of input equipment.
Wherein, induction information comprises the first induction information and the second induction information, and sensor is non-mechanics sensor, for the information that user is inputted by non-application of force means, is converted to induction information.
Concrete, in the present embodiment, non-mechanics sensor in the first electronic equipment can have multiple, such as: can be the optical sensor that is widely used at present, touch sensor etc., the difference of the input element maximum of this class sensor and traditional mechanical push-key type is, user does not need that sensor is applied to larger acting force and gets final product trigger sensor, for example: the generating laser that optical sensor only needs user to block on optical sensor by finger gets final product the induction information that trigger sensor sends.
It should be noted that, the input equipments such as mouse in the market, empty mouse are mostly to adopt mechanical input key, and the click sound often occurring during such as use mouse is to send after user applies acting force to the mechanical key on mouse.For needs, often use the people of the input equipment work such as mouse, empty mouse, long-time high-frequency ground is clicked mechanical key and is very easy to fatigue, affects user's work efficiency.And if things go on like this can cause the strain of the tissues such as hand joint, muscle, even pathology, affects healthy.
Further, induction information has comprised the first induction information and the second induction information, be that sensor can be exported at least two kinds of different induction informations, for example: on mouse, with sensor, substitute mechanical key, the first induction information can be the information that user clicks the mouse and sends after left button, and the second induction information can be the information that user clicks the mouse and sends after right button.
Wherein, the first order is carried out the first instruction for the second electronic equipment.
For example: on mouse, with sensor, substitute mechanical key, the first induction information can be the information that user clicks the mouse and sends after left button, and the first order can be select command (selecting the object of mouse pointer position).
Wherein, the second order is carried out the second instruction for the second electronic equipment, and the first order is different with the second order.
For example: on mouse, with sensor, substitute mechanical key, the second induction information can be the information that user clicks the mouse and sends after left button, and the second order can be the order (being the attribute menu of the object of mouse pointer position) of display menu.
The input method that the embodiment of the present invention provides, can receive by non-mechanics sensor user's triggering, so that the information that user is inputted by non-application of force means is converted to induction information, thereby avoid user to be continuously applied acting force to input equipment, extenuated long-time use easily tired, the problems such as muscular strain, have improved user experience.
Embodiment 2
The embodiment of the present invention provides a kind of input method, and as shown in Figure 2 a, the method comprises:
Wherein, induction information comprises the first induction information and the second induction information, and described sensor is non-mechanics sensor, for the information that user is inputted by non-application of force means, is converted to induction information.
Concrete, in the present embodiment, the non-mechanics sensor in input equipment can comprise: touch sensor, proximity sensor, it should be noted that:
1, touch sensor, for directly contacting the rear induction information that generates user with touch sensor.For example: touch sensor can be conventional touch sensor (or claiming touch sensing unit) as resistive touch sensor, capacitive touch sensors, detect and whether have object to contact with sensor, with the induction information can trigger sensor sending.
2, proximity sensor, generates induction information while not contacting for approaching with proximity sensor user.
For example: the first electronic equipment can pass through conventional infrared sensor, sonic sensor, detect the reconnaissance range that whether has the distance of object and sensor to approach to sensor, object enters after the reconnaissance range of sensor, the induction information that trigger sensor sends.
Need to further illustrate, sensor can comprise the first sub-sensor, the second sub-sensor, and the first sub-sensor sends the first induction information to the first electronic equipment, and the second sub-sensor sends the second induction information to the first electronic equipment.Wherein, the first sub-sensor and the second sub-sensor are two different sensors.
The first electronic equipment can comprise at least two different sensors, a sensor sends the first induction information, another sensor sends the second induction information, and these at least two different sensors can be the sensors of same type, for example: as shown in Fig. 2 a1, an empty mouse can comprise that two optical sensings are respectively as left button and right button.
Side by side optional, the first that the first sub-sensor is sensor, the second portion that the second sub-sensor is sensor, and first and second portion incomplete same.
The first electronic equipment can only include a sensor, when user triggered first in this sensor this sensor send the first induction information, when user triggered second portion in this sensor this sensor send the second induction information, for example: as shown in Fig. 2 a2, on an empty mouse, only have a touch-screen (being touch sensor), those skilled in the art can mark off by prior art means first and second portion on this part touch-screen.When user has touched first, touch-screen sends the first induction information to empty mouse, and when user has touched second portion, touch-screen sends the second induction information to empty mouse.
Step 202, if the transmission of described sensor is described the first induction information, sends the first order to the second electronic equipment being connected with described the first electronic equipment.
Wherein, the first order is carried out the first instruction for the second electronic equipment.
Step 203, if the transmission of described sensor is described the second induction information, sends the second order to the second electronic equipment being connected with described the first electronic equipment.
Wherein, the second order is carried out the second instruction for the second electronic equipment.And the first order is different with the second order.
Optional side by side, in the present embodiment, as shown in Figure 2 b, also comprise:
In the present embodiment, in the first electronic equipment, can also comprise airborne sensor, for example: in empty mouse, be equipped with gyroscope, to detect the displacement situation of empty mouse.And when the first electronic equipment moves in space, airborne sensor can detect the motion conditions of the first electronic equipment, and the displacement induction information sending to the first electronic equipment, the first electronic equipment can obtain the displacement moving in space according to displacement induction information
So that described the second electronic equipment according to described displacement command, obtain the position that described the first electronic equipment is subjected to displacement rear place.If displacement is not more than predetermined threshold value, do not operate.
For example: present some empty mouse on the market can be worn on user on hand with the form of gloves, thereby can detect by built-in gyroscope the motion conditions of user's hand, and cursor is presented on the screen of the computing machine being connected with empty mouse.When user reaches while keeping motionless, because human muscular tissue still can produce small vibration, also shake thereupon of the cursor on screen.
In the present embodiment, in the first electronic equipment, can preserve a predetermined threshold value, when the displacement induction information that the first electronic equipment sends from airborne sensor, obtain after displacement, can first detect displacement and whether be greater than predetermined threshold value, if displacement is greater than predetermined threshold value, illustrate that displacement has occurred the first electronic equipment really, for example: user has moved empty mouse.If displacement is not more than predetermined threshold value, illustrate that the first electronic equipment is not subjected to displacement, for example: the not mobile empty mouse of user, but because the normal vibration of hand has caused having produced in gyroscope reading, judge that empty mouse is not moved, it is motionless that the cursor on the screen of the computing machine being connected with empty mouse keeps.
It should be noted that, on the basis of above-mentioned scheme of the invention, as shown in Figure 2 c, can also comprise:
In the practical application of the present embodiment, airborne sensor can be worked with other sensor synergisms, and the first electronic equipment can be exported different orders to the second electronic equipment according to displacement induction information and the first induction information/the second induction information, for example:
The first electronic equipment can be a kind of empty mouse, this sky mouse has comprised as the optical sensor of left button with as the optical sensor of right button and as the gyroscope of airborne sensor, the second electronic equipment can be the computing machine being connected with this sky mouse, and on the screen of computing machine, shows the cursor of this sky mouse.Wherein, empty mouse receives after the first induction information as the optical sensor output of left button, to computer export, represent the first order that left button is clicked, empty mouse receives after the second induction information as the optical sensor output of right button, to computer export, represent the second order that right button is clicked, with space-time mouse, also according to after the displacement induction information of gyroscope output, to the displacement of the empty mouse of computer export, thereby realize user, by empty mouse, control the cursor on computer screen.Control mode can have multiple, specific in time application such as:
1, any one in the optical sensor of the optical sensor of angelica left button or ownership right button, when detecting air mouse and be subjected to displacement in sent detection light crested and by gyroscope, illustrate that left button or right button are continued to press, to the computing machine being connected with air mouse, send and represent that left button or right button are continued the order of pressing.
2, any one in the optical sensor of the optical sensor of angelica left button or ownership right button, when sent detection light does not have crested and do not detected air mouse and be subjected to displacement by gyroscope, illustrate that left button or right button are released, to the computing machine being connected with air mouse, send and represent left button or the d/d order of right button.
3, any one in the optical sensor of the optical sensor of angelica left button or ownership right button, when not detecting air mouse and be subjected to displacement in sent detection light crested and by gyroscope, illustrate that left button or right button are pressed once, to the computing machine being connected with air mouse, send the order that represents that left button or right button are pressed once.
4, any one in the optical sensor of the optical sensor of angelica left button or ownership right button, sent detection light at the appointed time in interval by double when covering and not detecting air mouse and be subjected to displacement by gyroscope, illustrate that left button or right button are double-clicked once, to the computing machine being connected with air mouse, send the order that represents double-click.
The input method that the embodiment of the present invention provides, can receive by non-mechanics sensor user's triggering, so that the information that user is inputted by non-application of force means is converted to induction information, thereby avoid user to be continuously applied acting force to input equipment, extenuated long-time use easily tired, the problems such as muscular strain, have improved user experience.And can prevent input equipment shake, improve the accuracy of input command, thereby further improve user experience.
Embodiment 3
The embodiment of the present invention provides a kind of input media, and as shown in Figure 3, the method comprises:
Sending module 32, if what send for described sensor be described the first induction information, sends the first order to the second electronic equipment being connected with the first electronic equipment, and described first orders and be used for described the second electronic equipment and carry out the first instruction.
Described sending module 32, if what also send for described sensor be described the second induction information, sends the second order to the second electronic equipment being connected with described the first electronic equipment, and described second orders and be used for described the second electronic equipment and carry out the second instruction.Wherein, described the first order is different with described the second order.
The input media that the embodiment of the present invention provides, can receive by non-mechanics sensor user's triggering, so that the information that user is inputted by non-application of force means is converted to induction information, thereby avoid user to be continuously applied acting force to input equipment, extenuated long-time use easily tired, the problems such as muscular strain, have improved user experience.
Embodiment 4
The embodiment of the present invention provides a kind of input media, and as shown in Figure 4, the method comprises:
Wherein, described sensor comprises the first sub-sensor, the second sub-sensor, and described the first sub-sensor sends described the first induction information to described the first electronic equipment, and described the second sub-sensor sends described the second induction information to described the first electronic equipment.
Wherein, described the first sub-sensor and described the second sub-sensor are two different sensors,
Or, the first that described the first sub-sensor is described sensor, the second portion that described the second sub-sensor is described sensor, and described first and described second portion incomplete same.
Further, describedly for non-mechanics sensor, comprise: touch sensor, proximity sensor, wherein: described touch sensor, for generating induction information user with after described touch sensor directly contacts.Described proximity sensor, generates induction information while not contacting for approaching with described proximity sensor user.
Sending module 42, if what send for described sensor be described the first induction information, sends the first order to the second electronic equipment being connected with the first electronic equipment, and described first orders and be used for described the second electronic equipment and carry out the first instruction.
Described sending module 42, if what also send for described sensor be described the second induction information, sends the second order to the second electronic equipment being connected with described the first electronic equipment, and described second orders and be used for described the second electronic equipment and carry out the second instruction.Wherein, described the first order is different with described the second order.
Further, in the present embodiment, also comprise:
Described receiver module 41, the displacement induction information also sending for receiving airborne sensor.
Whether detection module 44, be greater than predetermined threshold value for detection of described displacement.
Described sending module 42, if be also greater than described predetermined threshold value for described displacement, to described the second electronic equipment being connected with described the first electronic equipment, send displacement command so that described the second electronic equipment according to described displacement command, obtain the position that described the first electronic equipment is subjected to displacement rear place.
Further, in the present embodiment, also comprise:
Described receiver module 41, also, for after the induction information sending at receiving sensor, receives the displacement induction information that described airborne sensor sends.
Described analysis module 43, also for obtaining the displacement of described the first electronic equipment according to described displacement induction information.
Whether described detection module 44, be also greater than described predetermined threshold value for detection of described displacement.
Described sending module 42, if be also not more than described predetermined threshold value for described displacement, sends described the first order or described the second order to described the second electronic equipment being connected with described the first electronic equipment.If described displacement is greater than described predetermined threshold value, to described the second electronic equipment being connected with described the first electronic equipment, sends described displacement command and described the first order, or send described displacement command and described the second order.
The input media that the embodiment of the present invention provides, can receive by non-mechanics sensor user's triggering, so that the information that user is inputted by non-application of force means is converted to induction information, thereby avoid user to be continuously applied acting force to input equipment, extenuated long-time use easily tired, the problems such as muscular strain, have improved user experience.And can prevent input equipment shake, improve the accuracy of input command, thereby further improve user experience.
The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited to this, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; the variation that can expect easily or replacement, within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of claim.
Claims (10)
1. an input method, is characterized in that, described method comprises:
The induction information that the first electronic equipment receiving sensor sends, described induction information comprises the first induction information and the second induction information, described sensor is non-mechanics sensor, for the information that user is inputted by non-application of force means, is converted to induction information;
If what described sensor sent is described the first induction information, to the second electronic equipment being connected with described the first electronic equipment, send the first order, described the first order is carried out the first instruction for described the second electronic equipment;
If what described sensor sent is described the second induction information, to the second electronic equipment being connected with described the first electronic equipment, send the second order, described the second order is carried out the second instruction for described the second electronic equipment;
Wherein, described the first order is different with described the second order.
2. input method according to claim 1, it is characterized in that, described sensor comprises the first sub-sensor, the second sub-sensor, described the first sub-sensor sends described the first induction information to described the first electronic equipment, and described the second sub-sensor sends described the second induction information to described the first electronic equipment;
Wherein, described the first sub-sensor and described the second sub-sensor are two different sensors,
Or, the first that described the first sub-sensor is described sensor, the second portion that described the second sub-sensor is described sensor, and described first and described second portion incomplete same.
3. input method according to claim 1, is characterized in that, describedly for non-mechanics sensor, comprises: touch sensor, proximity sensor, wherein:
Described touch sensor, for directly contacting the rear induction information that generates user with described touch sensor;
Described proximity sensor, generates induction information while not contacting for approaching with described proximity sensor user.
4. input method according to claim 1, is characterized in that, also comprises:
Described the first electronic equipment receives the displacement induction information that airborne sensor sends, and obtains displacement according to described displacement induction information;
Detect described displacement and whether be greater than predetermined threshold value, if described displacement is greater than described predetermined threshold value, to described the second electronic equipment being connected with described the first electronic equipment, send displacement command so that described the second electronic equipment according to described displacement command, obtain the position that described the first electronic equipment is subjected to displacement rear place.
5. according to input method described in claim 1 or 4, it is characterized in that, also comprise:
After the induction information sending at described the first electronic equipment receiving sensor, receive the displacement induction information that described airborne sensor sends, and according to described displacement induction information, obtain the displacement of described the first electronic equipment;
Detect described displacement and whether be greater than described predetermined threshold value, if described displacement is not more than described predetermined threshold value, to described the second electronic equipment being connected with described the first electronic equipment, send described the first order or described the second order;
If described displacement is greater than described predetermined threshold value, to described the second electronic equipment being connected with described the first electronic equipment, sends described displacement command and described the first order, or send described displacement command and described the second order.
6. an input media, is characterized in that, described device comprises:
Receiver module, the induction information sending for receiving sensor, described induction information comprises the first induction information and the second induction information, described sensor is non-mechanics sensor, for the information that user is inputted by non-application of force means, is converted to induction information;
Sending module, if what send for described sensor be described the first induction information, sends the first order to the second electronic equipment being connected with the first electronic equipment, and described first orders and be used for described the second electronic equipment and carry out the first instruction;
Described sending module, if what also send for described sensor be described the second induction information, sends the second order to the second electronic equipment being connected with described the first electronic equipment, and described second orders and be used for described the second electronic equipment and carry out the second instruction;
Wherein, described the first order is different with described the second order.
7. input media according to claim 6, it is characterized in that, described sensor comprises the first sub-sensor, the second sub-sensor, described the first sub-sensor sends described the first induction information to described the first electronic equipment, and described the second sub-sensor sends described the second induction information to described the first electronic equipment;
Wherein, described the first sub-sensor and described the second sub-sensor are two different sensors,
Or, the first that described the first sub-sensor is described sensor, the second portion that described the second sub-sensor is described sensor, and described first and described second portion incomplete same.
8. input media according to claim 6, is characterized in that, describedly for non-mechanics sensor, comprises: touch sensor, proximity sensor, wherein:
Described touch sensor, for directly contacting the rear induction information that generates user with described touch sensor;
Described proximity sensor, generates induction information while not contacting for approaching with described proximity sensor user.
9. input media according to claim 6, is characterized in that, also comprises:
Described receiver module, the displacement induction information also sending for receiving airborne sensor;
Analysis module, for obtaining displacement according to described displacement induction information;
Whether detection module, be greater than predetermined threshold value for detection of described displacement;
Described sending module, if be also greater than described predetermined threshold value for described displacement, to described the second electronic equipment being connected with described the first electronic equipment, send displacement command so that described the second electronic equipment according to described displacement command, obtain the position that described the first electronic equipment is subjected to displacement rear place.
10. according to input media described in claim 6 or 9, it is characterized in that, also comprise:
Described receiver module, also, for after the induction information sending at receiving sensor, receives the displacement induction information that described airborne sensor sends;
Described analysis module, also for obtaining the displacement of described the first electronic equipment according to described displacement induction information;
Whether described detection module, be also greater than described predetermined threshold value for detection of described displacement;
Described sending module, if be also not more than described predetermined threshold value for described displacement, sends described the first order or described the second order to described the second electronic equipment being connected with described the first electronic equipment; If described displacement is greater than described predetermined threshold value, to described the second electronic equipment being connected with described the first electronic equipment, sends described displacement command and described the first order, or send described displacement command and described the second order.
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| CN201210322714.5A CN103677325A (en) | 2012-09-03 | 2012-09-03 | Input method and device |
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| CN201210322714.5A CN103677325A (en) | 2012-09-03 | 2012-09-03 | Input method and device |
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| CN1802624A (en) * | 2004-04-22 | 2006-07-12 | 韩昌龙 | Mouse |
| CN101477436A (en) * | 2008-12-18 | 2009-07-08 | 腾讯科技(深圳)有限公司 | Interaction method and system for client area of program window |
| CN101593024A (en) * | 2008-05-30 | 2009-12-02 | 罗技欧洲公司 | Have improved cursor control in-air and allow the pointing device of a plurality of operator schemes |
| CN102520954A (en) * | 2011-12-15 | 2012-06-27 | 北京新媒传信科技有限公司 | Implementation method and implementation device for mouse following |
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2012
- 2012-09-03 CN CN201210322714.5A patent/CN103677325A/en active Pending
Patent Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1802624A (en) * | 2004-04-22 | 2006-07-12 | 韩昌龙 | Mouse |
| CN101593024A (en) * | 2008-05-30 | 2009-12-02 | 罗技欧洲公司 | Have improved cursor control in-air and allow the pointing device of a plurality of operator schemes |
| CN101477436A (en) * | 2008-12-18 | 2009-07-08 | 腾讯科技(深圳)有限公司 | Interaction method and system for client area of program window |
| CN102520954A (en) * | 2011-12-15 | 2012-06-27 | 北京新媒传信科技有限公司 | Implementation method and implementation device for mouse following |
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Application publication date: 20140326 |