CN103324424A - Remote simulation multi-point touch method and system - Google Patents

Remote simulation multi-point touch method and system Download PDF

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Publication number
CN103324424A
CN103324424A CN2012100790862A CN201210079086A CN103324424A CN 103324424 A CN103324424 A CN 103324424A CN 2012100790862 A CN2012100790862 A CN 2012100790862A CN 201210079086 A CN201210079086 A CN 201210079086A CN 103324424 A CN103324424 A CN 103324424A
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module
touch
mobile phone
point
cell phone
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CN2012100790862A
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Chinese (zh)
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CN103324424B (en
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朱永俊
李旭
王琰
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百度在线网络技术(北京)有限公司
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Abstract

The invention provides a remote simulation multi-point touch method and system. The method comprises the steps as follows: S1, connection is established in advance between a remote user flash module and a cellphone management service module as well as between the cellphone management service module and a cellphone end core module; S2, the remote user flash module acquires multi-point touch simulation track data input by a user through a user terminal, and the data are sent to the cellphone end core module by the cellphone management service module; and S3, the cellphone end core module converts the simulation track data to the corresponding screen operation and writes a touch event into a touch screen device of a cellphone when monitoring the multi-point touch simulation track data. According to the remote simulation multi-point touch method and system, remote multi-point touch simulation is realized, so that an application test based on multi-point touch can be realized further.

Description

A kind of method and system of long-range simulation multi-point touch

[technical field]

The present invention relates to computer networking technology, particularly a kind of method and system of long-range simulation multi-point touch.

[background technology]

Fast development along with the smart mobile phone technology, the model of smart mobile phone is constantly weeded out the old and bring forth the new, application for various smart mobile phones also emerges in an endless stream, but open for the developer, after developing a application for smart mobile phone, need to test the application of developing, this test need to be carried out the smart mobile phone of Multiple Type.Be used for testing obvious cost of idleness if each developer buys the smart mobile phone of various models, also unrealistic, Given this remote testing center has solved this problem for the developer.The remote testing center provides the mobile phone of various models for developer's remote testing for all developers provide a test platform at this test platform.The developer is by the long-range application that its exploitation is installed at mobile phone of this test platform, and this mobile phone of operated from a distance comes application is tested, and wherein existing operation to mobile phone comprises: refresh, rotate picture, sectional drawing etc.

Yet, in a lot of application that the developer develops, can relate to mobile phone is carried out multi-point touch operation, for example the movement by two fingers realizes the convergent-divergent to picture, but the test platform that existing remote testing center provides can't be realized the simulation of long-range multi-point touch, also just can't realize the application testing based on multi-point touch.

[summary of the invention]

In view of this, the invention provides a kind of method and system of long-range simulation multi-point touch, so that at the application testing of remote testing platform realization based on multi-point touch.

Concrete technical scheme is as follows:

A kind of method of long-range simulation multi-point touch, the method comprises:

Between S1, long-distance user flash module and the cell phone managing service module, and connect in advance between cell phone managing service module and the mobile phone terminal nucleus module;

S2, long-distance user flash module are obtained the user and are sent to the mobile phone terminal nucleus module by the analog track data of the multi-point touch of user terminal input and by the cell phone managing service module;

After S3, mobile phone terminal nucleus module listen to the analog track data of described multi-point touch, described analog track data are converted to corresponding screen operator and write touch event to the touch-screen equipment of mobile phone.

According to one preferred embodiment of the present invention, after described step S1, the view data of mobile phone terminal nucleus module Real-time Obtaining mobile phone screen, view data is sent to long-distance user flash module by the cell phone managing service module, so that described long-distance user flash module shows the simulated screen of mobile phone.

According to one preferred embodiment of the present invention, in described step S1, set up and comprise being connected specifically between long-distance user flash module and the cell phone managing service module:

The cell phone managing service module is opened Server Socket service, in advance with IP address registration itself in the database at remote testing center;

Long-distance user flash module is obtained the IP address of described cell phone managing service module from the database at described remote testing center, foundation is connected with described cell phone managing service module.

According to one preferred embodiment of the present invention, in described step S1, set up and comprise being connected specifically between cell phone managing service module and the mobile phone terminal nucleus module:

The mobile phone terminal nucleus module is opened Server Socket service, and described cell phone managing service module connects by the port of described user terminal and the port of described mobile phone.

According to one preferred embodiment of the present invention, the analog track data of described multi-point touch comprise: touch action and simulated touch end points coordinate;

Described simulated touch point coordinate comprises initial touch point and the end touch point of first finger of simulation, and the initial touch point of second finger of simulation and end touch point.

According to one preferred embodiment of the present invention, described touch action obtains by the action of pressing of catching keyboard, and described simulated touch end points coordinate obtains by catching the mouse click and dragging action.

According to one preferred embodiment of the present invention, in described step S3, described analog track data are converted to corresponding screen operator are specially:

By with the initial touch point of first finger of described simulation and the initial touch point of second finger, and the end touch point of the end touch point of first finger and second finger is converted to corresponding screen resolution, thereby realizes the convergent-divergent to the mobile phone screen-picture.

According to one preferred embodiment of the present invention, described long-distance user flash module and described cell phone managing service module run on the described user terminal, and described mobile phone terminal nucleus module runs on the long-range described mobile phone.

A kind of system of long-range simulation multi-point touch, this system comprises: long-distance user flash module, cell phone managing service module and mobile phone terminal nucleus module; Between long-distance user flash module and the cell phone managing service module, and connect in advance between cell phone managing service module and the mobile phone terminal nucleus module;

Described long-distance user flash module comprises: obtain submodule for obtaining the track of user by the analog track data of the multi-point touch of user terminal input, and be used for the analog track data communication device of described multi-point touch is crossed the first transmission submodule that described cell phone managing service module sends to described mobile phone terminal nucleus module;

Described mobile phone terminal nucleus module comprises: be used for to monitor and receive the second transmission submodule of the analog track data of described multi-point touch, and be used for described analog track data being converted to corresponding screen operator and resolving and event writes submodule to the track that the touch-screen equipment of mobile phone writes touch event.

According to one preferred embodiment of the present invention, described mobile phone terminal nucleus module also comprises: the Image Acquisition submodule, for the view data of Real-time Obtaining mobile phone screen;

Described the second transmission submodule also is used for described view data is sent to described long-distance user flash module by the cell phone managing service module;

Described remote handset flash module also comprises: the image shows submodule is used for the simulated screen at the described mobile phone of screen displaying of described user terminal, and represents described view data in simulated screen.

According to one preferred embodiment of the present invention, described cell phone managing service module is opened Server Socket service, in advance with IP address registration itself in the database at remote testing center;

The first transmission submodule of described long-distance user flash module obtains described cell phone managing service module from the database at described remote testing center IP address, foundation is connected with described cell phone managing service module.

According to one preferred embodiment of the present invention, the second transmission submodule of described mobile phone terminal nucleus module is opened Server Socket service, described cell phone managing service module connects by the port of described user terminal and the port of described mobile phone, thereby realizes being connected of described cell phone managing service module and described mobile phone terminal nucleus module.

According to one preferred embodiment of the present invention, the analog track data of described multi-point touch comprise: touch action and simulated touch end points coordinate;

Described simulated touch point coordinate comprises initial touch point and the end touch point of first finger of simulation, and the initial touch point of second finger of simulation and end touch point.

According to one preferred embodiment of the present invention, described track obtains submodule and obtains described touch action by the action of pressing of catching keyboard, obtains described simulated touch end points coordinate by catching the mouse click and dragging action.

According to one preferred embodiment of the present invention, described track is resolved and event writes submodule and passes through the initial touch point of first finger of described simulation and the initial touch point of second finger, and the end touch point of the end touch point of first finger and second finger is converted to corresponding screen resolution, thereby realizes the convergent-divergent to the mobile phone screen-picture.

According to one preferred embodiment of the present invention, described long-distance user flash module and described cell phone managing service module run on the described user terminal, and described mobile phone terminal nucleus module runs on the long-range described mobile phone.

As can be seen from the above technical solutions, the present invention obtains the analog track data of multi-point touch by long-distance user flash module, send to the mobile phone terminal nucleus module by the cell phone managing service module, by the mobile phone terminal nucleus module analog track data of multi-point touch are converted to again the screen operator of correspondence, and write touch event to the touch-screen equipment of mobile phone, thereby realized the simulation of long-range multi-point touch, be convenient to further realization based on the application testing of multi-point touch.

[description of drawings]

Fig. 1 is the system construction drawing that the present invention relates to;

The method flow diagram that Fig. 2 provides for the embodiment of the invention one;

Fig. 3 a is the simulated screen schematic diagram of the remote handset that represents at the PC screen;

Fig. 3 b is the schematic diagram of analog track on simulated screen of multi-point touch;

Fig. 3 c is the effect schematic diagram of multi-point touch simulation;

Two coordinate distribution schematic diagrams of pointing initial touch points and end touch point that Fig. 4 provides for the embodiment of the invention one;

The detailed system structural drawing that Fig. 5 provides for the embodiment of the invention two.

[embodiment]

In order to make the purpose, technical solutions and advantages of the present invention clearer, describe the present invention below in conjunction with the drawings and specific embodiments.

Fig. 1 is the system construction drawing that the present invention relates to, and as shown in Figure 1, the system that the present invention relates to mainly comprises three modules: long-distance user flash module, cell phone managing service module and mobile phone terminal nucleus module.

Wherein long-distance user flash module is connected the PC that connects remote handset with the cell phone managing service module, and the cell phone managing service module is as the middleware that communicates between long-distance user flash module and the mobile phone terminal nucleus module.The mobile phone terminal nucleus module operates on the tested remote handset.The specific descriptions of each module are referring to subsequent embodiment two in this system.

At first be described in detail by a pair of method based on said system of embodiment.

Embodiment one,

The method flow diagram that Fig. 2 provides for the embodiment of the invention one, as shown in Figure 2, the method can may further comprise the steps:

Step 201: between long-distance user flash module and the cell phone managing service module, and need to connect in advance between cell phone managing service module and the mobile phone terminal nucleus module.

Particularly, the cell phone managing service module is opened Server Socket service, in advance with oneself IP address registration in the database at remote testing center.Long-distance user flash module gets access to the IP address of cell phone managing service module from the database at remote testing center, foundation is connected with the cell phone managing service module.

In addition, communicate by the TCP/IP mode between cell phone managing service module and the mobile phone terminal nucleus module, the mobile phone terminal nucleus module is also opened Server Socket service in advance.The cell phone managing service module is with after shining upon between the port of place personal computer (PC) and the remote handset port, the cell phone managing service module connects by port and the remote handset port of place PC, for the communication between follow-up long-distance user flash module and the mobile phone terminal nucleus module ready.

In embodiments of the present invention with the example of PC as user terminal, user terminal that certainly can also other types.

For example, carry out " adb-s0123456789 forward tcp:12580 tcp:5901 ", be that 0123456789 mobile phone port 5901 is mapped to pc port 12580 with sequence number, after the mobile phone terminal nucleus module is opened the Server Socket of 5901 ports, the cell phone managing service module just can connect 12580 ports of this PC, and foundation is connected with the mobile phone terminal nucleus module.

After establishing above-mentioned connection, in case the mobile phone terminal nucleus module is opened the touch-screen equipment of remote handset, long-distance user flash module just can show by the PC screen simulated screen of remote handset, shown in Fig. 3 a.

Step 202: long-distance user flash module is obtained the user by the analog track data of the multi-point touch of PC input, and sends to the mobile phone terminal nucleus module by the cell phone managing service module.

Owing to not being touch-screen on the PC, therefore, the simulation of carrying out multi-point touch by PC needs mouse and keyboard to cooperate execution usually.The analog track data of above-mentioned multi-point touch can be presented as: touch action and simulated touch end points coordinate.Wherein, touch action can obtain by the action of pressing of catching keyboard, and simulated touch end points coordinate can obtain by catching the mouse click and dragging action.Certainly, also can adopt other modes, only give one example at this:

The user begins to simulate multi-point touch by PC, at first pin the Ctrl of keyboard, keep pinning Ctrl during, because long-distance user flash module can go out by the PC screen shows simulated screen of remote handset, the user clicks the mouse at screen, long-distance user flash module is obtained the coordinate of clicking the mouse as the initial touch point of first finger, is designated as (startX1, startY1).Then again click the mouse in the another location of screen, the long-distance user obtains the coordinate of clicking the mouse for the second time as the initial touch point of second finger, is designated as (startX2, startY2).Begin to drag from the position of clicking the mouse for the second time afterwards, with the end touch point as second finger, the position that drags to, be designated as (currentX2, currentY2).Then, the user decontrols the ctrl key on the keyboard, after long-distance user flash module gets access to and decontrols keyboard ctrl key, determines that this multi-point touch analog input finishes.This simple declaration be, can be by the pressing and decontrol and distinguish a multiple point touching of ctrl key, again press the ctrl key behind the ctrl key then begin next time multiple point touching if decontrol.

Next, long-distance user flash module utilizes the Central Symmetry algorithm to calculate the end touch point (currentX1, currentY1) of first finger by above-mentioned three coordinate points, and the coordinate of four points distributes as shown in Figure 4.Specific algorithm is:

At first according to the mid point (centerX, centerY) between the initial touch point (startX2, startY2) of the initial touch point (startX1, startY1) of first finger and second finger:

centerX=(startX1+startX2)/2

centerY=(startY1+startY2)/2

Then according to the end touch point (currentX2, currentY2) of second finger and the end touch point (currentX1, currentY1) of first finger of mid point (centerX, centerY) calculating:

currentX1=2×centerX-currentX2

currentY1=2×centerY-currentY2

At this moment, the analog track of multi-point touch obtains end, and the analog track data of the multi-point touch that obtains just comprise: first finger and second finger divide other initial touch point and finish the touch point, and the touch action of pressing ctrl key sign.

Long-distance user flash module sends to the cell phone managing service module with the analog track data of the multi-point touch that obtains, sends to the mobile phone terminal nucleus module by the cell phone managing service module again.The analog track of multi-point touch is corresponding shown in Fig. 3 b on simulated screen, and two sections black lines are respectively the track of two fingers of simulation among the figure, and direction be from inner outside.

Step 203: after the mobile phone terminal nucleus module listens to the analog track data of multi-point touch, the analog track data are converted to corresponding screen operator and write touch event to the touch-screen equipment of mobile phone.

The mobile phone terminal nucleus module by Server Socket to monitoring from the data of cell phone managing service module, in case after monitoring and identifying the analog track data of multi-point touch, begin to write touch event to the touch-screen equipment of mobile phone.Wherein the analog track data of multi-point touch can be by the touch action identification that wherein comprises.

When the analog track data being converted to corresponding screen operator, can pass through the initial touch point of first finger and the initial touch point of second finger, and the end touch point of the end touch point of first finger and second finger is converted to corresponding screen resolution, thereby also just realized the convergent-divergent to screen-picture.As for the initial touch point that utilizes two fingers with finish the prior art that is converted to that screen resolution is carried out in the touch point, do not repeat them here.

Because the mobile phone terminal nucleus module after connecting by cell phone managing service module and long-distance user flash module, can obtain the view data of mobile phone screen in real time, and view data is sent to long-distance user flash module by the cell phone managing service module.Therefore, after in step 203, writing touch event to the touch-screen equipment of mobile phone, can produce the imagezoom operation at screen, after the mobile phone terminal nucleus module obtains the view data of screen and sends to long-distance user flash module by the cell phone managing service module, long-distance user flash module just can represent the multi-point touch simulated operation to remote handset image produce an effect by the PC screen, and above-mentioned example Fig. 3 b produce an effect is shown in Fig. 3 c.

Embodiment two,

The detailed system structural drawing that Fig. 5 provides for the embodiment of the invention two, as shown in Figure 5, this system comprises: long-distance user flash module 500, cell phone managing service module 510 and mobile phone terminal nucleus module 520.Between long-distance user flash module 500 and the cell phone managing service module 510, and connect in advance 520 between cell phone managing service module 510 and the mobile phone terminal nucleus module.

Wherein, long-distance user flash module 500 comprises: obtain submodule 501 for obtaining the track of user by the analog track data of the multi-point touch of PC input, and be used for the analog track data communication device of multi-point touch is crossed the first transmission submodule 502 that mobile phone management services module 510 sends to mobile phone terminal nucleus module 520.

Mobile phone terminal nucleus module 520 comprises: be used for to monitor and receive the second transmission submodule 521 of the analog track data of multi-point touch, and be used for the analog track data being converted to corresponding screen operator and resolving and event writes submodule 522 to the track that the touch-screen equipment of mobile phone writes touch event.

Wherein, the mode that connects between long-distance user flash module 500 and the cell phone managing service module 510 is: cell phone managing service module 510 is opened Server Socket service, in advance with IP address registration itself in the database at remote testing center, the first transmission submodule 502 of long-distance user flash module 500 obtains the cell phone managing service module from the database at remote testing center IP address, foundation is connected with cell phone managing service module 510.

The mode that connects in advance between cell phone managing service module 510 and the mobile phone terminal nucleus module 520 is: the second transmission submodule 521 of mobile phone terminal nucleus module 520 is opened Server Socket service, and cell phone managing service module 510 connects by the port of PC and the port of mobile phone.

Mobile phone terminal nucleus module 520 also comprises: Image Acquisition submodule 523, and for the view data of Real-time Obtaining mobile phone screen.At this moment, the second transmission submodule 521 also is used for view data is sent to long-distance user flash module 500 by cell phone managing service module 510.

Remote handset flash module 500 also comprises: image shows submodule 503 is used for the simulated screen at PC screen displaying remote handset, and represents the view data of obtaining in simulated screen.

The analog track data that track obtains the multi-point touch that submodule 501 obtains can comprise: touch action and simulated touch end points coordinate.Wherein, the simulated touch point coordinate comprises initial touch point and the end touch point of first finger of simulation, and the initial touch point of second finger of simulation and end touch point.

Owing to not being touch-screen on the PC, thus track obtain submodule 501 can be by catching pressing action and obtaining touch action of keyboard, click and drag action and obtain simulated touch end points coordinate by catching mouse.Concrete obtain manner example can be referring to described in embodiment one step 202.

Correspondingly, track is resolved and event writes submodule 522 by the initial touch point of first finger will simulating and the initial touch point of second finger, and the end touch point of the end touch point of first finger and second finger is converted to corresponding screen resolution, thereby realizes the convergent-divergent to the mobile phone screen-picture.Mobile phone terminal nucleus module 520 is obtaining the view data of mobile phone screen in real time like this, when view data is sent to long-distance user flash module by cell phone managing service module 510, just can represent the multi-point touch simulated operation to remote handset image produce an effect by the PC screen.

Above-mentioned long-distance user flash module 500 and cell phone managing service module 510 run on the PC, and mobile phone terminal nucleus module 520 runs on the long-range mobile phone.

Need to prove, the above embodiment of the present invention only is applied as the description that example is carried out so that multiple point touching control image scaling is this, of the present inventionly focus on how realizing long-range multi-point touch, do not limited for the image produce an effect of multi-point touch to mobile phone screen, can be produced different-effect according to concrete application.

The above only is preferred embodiment of the present invention, and is in order to limit the present invention, within the spirit and principles in the present invention not all, any modification of making, is equal to replacement, improvement etc., all should be included within the scope of protection of the invention.

Claims (16)

1. the method for a long-range simulation multi-point touch is characterized in that, the method comprises:
Between S1, long-distance user flash module and the cell phone managing service module, and connect in advance between cell phone managing service module and the mobile phone terminal nucleus module;
S2, long-distance user flash module are obtained the user and are sent to the mobile phone terminal nucleus module by the analog track data of the multi-point touch of user terminal input and by the cell phone managing service module;
After S3, mobile phone terminal nucleus module listen to the analog track data of described multi-point touch, described analog track data are converted to corresponding screen operator and write touch event to the touch-screen equipment of mobile phone.
2. method according to claim 1, it is characterized in that, after described step S1, the view data of mobile phone terminal nucleus module Real-time Obtaining mobile phone screen, view data is sent to long-distance user flash module by the cell phone managing service module, so that described long-distance user flash module shows the simulated screen of mobile phone.
3. method according to claim 1 is characterized in that, in described step S1, sets up and comprises being connected specifically between long-distance user flash module and the cell phone managing service module:
The cell phone managing service module is opened Server Socket service, in advance with IP address registration itself in the database at remote testing center;
Long-distance user flash module is obtained the IP address of described cell phone managing service module from the database at described remote testing center, foundation is connected with described cell phone managing service module.
4. method according to claim 1 is characterized in that, in described step S1, sets up and comprises being connected specifically between cell phone managing service module and the mobile phone terminal nucleus module:
The mobile phone terminal nucleus module is opened Server Socket service, and described cell phone managing service module connects by the port of described user terminal and the port of described mobile phone.
5. method according to claim 1 is characterized in that, the analog track data of described multi-point touch comprise: touch action and simulated touch end points coordinate;
Described simulated touch point coordinate comprises initial touch point and the end touch point of first finger of simulation, and the initial touch point of second finger of simulation and end touch point.
6. method according to claim 5 is characterized in that, described touch action obtains by the action of pressing of catching keyboard, and described simulated touch end points coordinate obtains by catching the mouse click and dragging action.
7. method according to claim 5 is characterized in that, in described step S3, described analog track data is converted to corresponding screen operator is specially:
By with the initial touch point of first finger of described simulation and the initial touch point of second finger, and the end touch point of the end touch point of first finger and second finger is converted to corresponding screen resolution, thereby realizes the convergent-divergent to the mobile phone screen-picture.
8. method according to claim 1 is characterized in that, described long-distance user flash module and described cell phone managing service module run on the described user terminal, and described mobile phone terminal nucleus module runs on the long-range described mobile phone.
9. the system of a long-range simulation multi-point touch is characterized in that, this system comprises: long-distance user flash module, cell phone managing service module and mobile phone terminal nucleus module; Between long-distance user flash module and the cell phone managing service module, and connect in advance between cell phone managing service module and the mobile phone terminal nucleus module;
Described long-distance user flash module comprises: obtain submodule for obtaining the track of user by the analog track data of the multi-point touch of user terminal input, and be used for the analog track data communication device of described multi-point touch is crossed the first transmission submodule that described cell phone managing service module sends to described mobile phone terminal nucleus module;
Described mobile phone terminal nucleus module comprises: be used for to monitor and receive the second transmission submodule of the analog track data of described multi-point touch, and be used for described analog track data being converted to corresponding screen operator and resolving and event writes submodule to the track that the touch-screen equipment of mobile phone writes touch event.
10. system according to claim 9 is characterized in that, described mobile phone terminal nucleus module also comprises: the Image Acquisition submodule, for the view data of Real-time Obtaining mobile phone screen;
Described the second transmission submodule also is used for described view data is sent to described long-distance user flash module by the cell phone managing service module;
Described remote handset flash module also comprises: the image shows submodule is used for the simulated screen at the described mobile phone of screen displaying of described user terminal, and represents described view data in simulated screen.
11. system according to claim 9 is characterized in that, described cell phone managing service module is opened Server Socket service, in advance with IP address registration itself in the database at remote testing center;
The first transmission submodule of described long-distance user flash module obtains described cell phone managing service module from the database at described remote testing center IP address, foundation is connected with described cell phone managing service module.
12. system according to claim 9, it is characterized in that, the second transmission submodule of described mobile phone terminal nucleus module is opened Server Socket service, described cell phone managing service module connects by the port of described user terminal and the port of described mobile phone, thereby realizes being connected of described cell phone managing service module and described mobile phone terminal nucleus module.
13. system according to claim 9 is characterized in that, the analog track data of described multi-point touch comprise: touch action and simulated touch end points coordinate;
Described simulated touch point coordinate comprises initial touch point and the end touch point of first finger of simulation, and the initial touch point of second finger of simulation and end touch point.
14. system according to claim 13 is characterized in that, described track obtains submodule and obtains described touch action by the action of pressing of catching keyboard, obtains described simulated touch end points coordinate by catching the mouse click and dragging action.
15. system according to claim 13, it is characterized in that, described track is resolved and event writes submodule and passes through the initial touch point of first finger of described simulation and the initial touch point of second finger, and the end touch point of the end touch point of first finger and second finger is converted to corresponding screen resolution, thereby realizes the convergent-divergent to the mobile phone screen-picture.
16. system according to claim 9 is characterized in that, described long-distance user flash module and described cell phone managing service module run on the described user terminal, and described mobile phone terminal nucleus module runs on the long-range described mobile phone.
CN201210079086.2A 2012-03-23 2012-03-23 A kind of method and system of remote simulation multi-point touch CN103324424B (en)

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