CN103324424B - A kind of method and system of remote simulation multi-point touch - Google Patents

A kind of method and system of remote simulation multi-point touch Download PDF

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Publication number
CN103324424B
CN103324424B CN201210079086.2A CN201210079086A CN103324424B CN 103324424 B CN103324424 B CN 103324424B CN 201210079086 A CN201210079086 A CN 201210079086A CN 103324424 B CN103324424 B CN 103324424B
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touch
module
mobile phone
point
cell phone
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CN201210079086.2A
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CN103324424A (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 kind of method and system of remote simulation multi-point touch, wherein method comprises: S1, between long-distance user's flash module and cell phone managing service module, and connects in advance between cell phone managing service module and mobile phone terminal nucleus module; S2, long-distance user's flash module obtain the analog track data of the multi-point touch that user is inputted by user terminal and send to mobile phone terminal nucleus module by 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 to the touch-screen equipment write touch event of mobile phone.By present invention achieves the simulation of long-range multi-point touch, be convenient to the application testing realized further based on multi-point touch.

Description

A kind of method and system of remote simulation multi-point touch

[technical field]

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

[background technology]

Along with the fast development of 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 phone also emerges in an endless stream, but developer is opened, when develop a for the application of smart mobile phone after, need to test the application of developing, this test needs to carry out the smart mobile phone of Multiple Type.If each developer buys the smart mobile phone of various model for testing obvious cost of idleness, also unrealistic, Given this remote testing center solves this problem for developer.Remote testing center provides a test platform for all developers, provides the mobile phone of various model for developer's remote testing at this test platform.Developer is by the long-range application of installing its exploitation on mobile phone of this test platform, and this mobile phone of operated from a distance is tested application, and wherein the existing operation to mobile phone comprises: refresh, rotate picture, sectional drawing etc.

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

[summary of the invention]

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

Concrete technical scheme is as follows:

A method for remote simulation multi-point touch, the method comprises:

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

S2, long-distance user's flash module obtain the analog track data of the multi-point touch that user is inputted by user terminal and send to mobile phone terminal nucleus module by 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 to the touch-screen equipment write touch event 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's flash module by cell phone managing service module, so that described long-distance user's flash module shows the simulated screen of mobile phone.

According to one preferred embodiment of the present invention, in described step S1, the connection of setting up between long-distance user's flash module and cell phone managing service module specifically comprises:

Cell phone managing service module opens ServerSocket service, in advance by IP address registration itself in the database at remote testing center;

Long-distance user's flash module obtains the IP address of described cell phone managing service module from the database at described remote testing center, sets up the connection with described cell phone managing service module.

According to one preferred embodiment of the present invention, in described step S1, the connection of setting up between cell phone managing service module and mobile phone terminal nucleus module specifically comprises:

Mobile phone terminal nucleus module opens ServerSocket service, and described cell phone managing service module is connected 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 extreme coordinates;

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

According to one preferred embodiment of the present invention, described touch action is obtained by the action of pressing of catching keyboard, described simulated touch extreme coordinates by catch mouse click and drag action obtain.

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

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

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

A system for remote simulation multi-point touch, this system comprises: long-distance user's flash module, cell phone managing service module and mobile phone terminal nucleus module; Between long-distance user's flash module and cell phone managing service module, and connect in advance between cell phone managing service module and mobile phone terminal nucleus module;

Described long-distance user's flash module comprises: the track for obtaining the analog track data of the multi-point touch that user is inputted by user terminal obtains submodule, and for the analog track data of described multi-point touch to be sent to the first transmission submodule of described mobile phone terminal nucleus module by described cell phone managing service module;

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

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

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

Described remote handset flash module also comprises: image shows submodule, shows the simulated screen of described mobile phone on the screen at described user terminal, and in simulated screen, represent described view data.

According to one preferred embodiment of the present invention, described cell phone managing service module opens ServerSocket service, in advance by the IP address registration of itself in the database at remote testing center;

First transmission submodule of described long-distance user's flash module obtains the IP address of described cell phone managing service module from the database at described remote testing center, sets up the connection with described cell phone managing service module.

According to one preferred embodiment of the present invention, second transmission submodule of described mobile phone terminal nucleus module opens ServerSocket service, described cell phone managing service module is connected by the port of described user terminal and the port of described mobile phone, thus realizes the connection 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 extreme coordinates;

Described simulated touch point coordinate comprises the initial touch point of first of simulation finger and terminates touch point, and the initial touch point of second finger of simulation and terminate 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, by catching mouse and click and drag action obtaining described simulated touch extreme coordinates.

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

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

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

[accompanying drawing explanation]

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 present invention one;

Fig. 3 a is the simulated screen schematic diagram of the remote handset represented on a pc screen;

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

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

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

The detailed system structure figure that Fig. 5 provides for the embodiment of the present invention two.

[embodiment]

In order to make the object, technical solutions and advantages of the present invention clearly, 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's flash module, cell phone managing service module and mobile phone terminal nucleus module.

Wherein long-distance user's flash module runs on cell phone managing service module the PC being connected remote handset, and cell phone managing service module is as the middleware carrying out between long-distance user's flash module and mobile phone terminal nucleus module communicating.Mobile phone terminal nucleus module operates on tested remote handset.In this system, the specific descriptions of each module are see subsequent embodiment two.

First be described in detail by embodiment a pair method based on said system.

Embodiment one,

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

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

Particularly, cell phone managing service module open ServerSocket service, in advance by the IP address registration of oneself in the database at remote testing center.Long-distance user's flash module gets the IP address of cell phone managing service module from the database at remote testing center, sets up the connection with cell phone managing service module.

In addition, communicated between cell phone managing service module and mobile phone terminal nucleus module by TCP/IP mode, mobile phone terminal nucleus module also opens ServerSocket service in advance.Cell phone managing service module is by after mapping between the port of place personal computer (PC) and remote handset port, cell phone managing service module is connected, for the communication between subsequent remote user flash module and mobile phone terminal nucleus module is ready by the port of place PC and remote handset port.

In embodiments of the present invention using PC as user terminal example, the user terminal of certainly all right other types.

Such as, perform " adb-s0123456789forwardtcp:12580tcp:5901 ", by sequence number be 0123456789 mobile phone port 5901 be mapped to pc port 12580, after mobile phone terminal nucleus module opens the ServerSocket of 5901 ports, cell phone managing service module just can connect 12580 ports of this PC, sets up the connection with mobile phone terminal nucleus module.

After establishing above-mentioned connection, once mobile phone terminal nucleus module opens the touch-screen equipment of remote handset, long-distance user's flash module just can show the simulated screen of remote handset by PC screen, as shown in Figure 3 a.

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

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

User starts to simulate multi-point touch by PC, first the Ctrl of keyboard is pinned, during Ctrl is pinned in maintenance, because long-distance user's flash module can go out the simulated screen of remote handset by PC screen shows, user clicks the mouse on screen, long-distance user's flash module obtains the coordinate of the clicking the mouse initial touch point as first finger, is designated as (startX1, startY1).Then again click the mouse in the another location of screen, long-distance user obtains the second time coordinate of clicking the mouse as the initial touch point of second finger, is designated as (startX2, startY2).Drag from the position that second time is clicked the mouse afterwards, using the end touch point that the position dragged to is pointed as second, be designated as (currentX2, currentY2).Then, user decontrols the ctrl key on keyboard, and long-distance user's flash module determines that this multi-point touch analog input terminates after getting and decontroling keyboard ctrl key.In this simple declaration, can press and decontrol differentiation multiple point touching by ctrl key, if again press ctrl key after decontroling ctrl key, start multiple point touching next time.

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

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

centerX=(startX1+startX2)/2

centerY=(startY1+startY2)/2

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

currentX1=2×centerX-currentX2

currentY1=2×centerY-currentY2

Now, the analog track of multi-point touch obtains and terminates, and the analog track data of the multi-point touch obtained just comprise: first finger and second finger divide other initial touch point and terminate touch point, and press the touch action of ctrl key mark.

The analog track data of the multi-point touch of acquisition are sent to cell phone managing service module by long-distance user's flash module, then send to mobile phone terminal nucleus module by cell phone managing service module.The analog track of multi-point touch in simulated screen correspondence as shown in Figure 3 b, in figure, two sections of black lines are respectively the tracks of two fingers of simulation, and direction is from outwards inner.

Analog track data are converted to the screen operator of correspondence by step 203: after mobile phone terminal nucleus module listens to the analog track data of multi-point touch and the touch-screen equipment to mobile phone writes touch event.

Mobile phone terminal nucleus module is monitored the data from cell phone managing service module by ServerSocket, once monitor and after identifying the analog track data of multi-point touch, the touch-screen equipment to mobile phone starts to write touch event.Wherein the analog track data of multi-point touch can by the touch action identification wherein comprised.

When analog track data being converted to corresponding screen operator, can by the initial touch point by the initial touch point of first finger and second finger, and the end touch point of the end touch point of first finger and second finger is converted to corresponding screen resolution, thus also just achieve the convergent-divergent to screen-picture.The initial touch point pointed as utilizing two and terminate that touch point carries out screen resolution be converted to prior art, do not repeat them here.

Because mobile phone terminal nucleus module is after connecting by cell phone managing service module and long-distance user's flash module, the view data of mobile phone screen can be obtained in real time, view data is sent to long-distance user's flash module by cell phone managing service module.Therefore, in step 203 after the touch-screen equipment write touch event of mobile phone, screen can produce the zoom operations of image, mobile phone terminal nucleus module obtain screen view data and after sending to long-distance user's flash module by cell phone managing service module, long-distance user's flash module just can represent by PC screen the effect that multi-point touch simulated operation produces remote handset image, and the effect that above-mentioned example Fig. 3 b produces as shown in Figure 3 c.

Embodiment two,

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

Wherein, long-distance user's flash module 500 comprises: the track for obtaining the analog track data of the multi-point touch that user is inputted by PC obtains submodule 501, and for the analog track data of multi-point touch to be sent to the first transmission submodule 502 of mobile phone terminal nucleus module 520 by cell phone managing service module 510.

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

Wherein, the mode connected between long-distance user's flash module 500 and cell phone managing service module 510 is: cell phone managing service module 510 is opened ServerSocket and served, in advance by IP address registration itself in the database at remote testing center, first transmission submodule 502 of long-distance user's flash module 500 obtains the IP address of cell phone managing service module from the database at remote testing center, sets up the connection with cell phone managing service module 510.

The mode connected in advance between cell phone managing service module 510 and mobile phone terminal nucleus module 520 is: second of mobile phone terminal nucleus module 520 transmits submodule 521 to be opened ServerSocket and serve, and cell phone managing service module 510 is connected by the port of PC and the port of mobile phone.

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

Remote handset flash module 500 also comprises: image shows submodule 503, for showing the simulated screen of remote handset on a pc screen, and in simulated screen, represents the view data of acquisition.

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

Owing to PC not being touch-screen, therefore track obtain submodule 501 can obtain touch action by the action of pressing of catching keyboard, by catch mouse click and drag action obtain simulated touch extreme coordinates.Concrete obtain manner example can see described in embodiment one step 202.

Correspondingly, track is resolved and event write submodule 522 passes through the initial touch point of first finger that will simulate 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, thus realize the convergent-divergent to mobile phone screen-picture.Such mobile phone terminal nucleus module 520 to obtain the view data of mobile phone screen in real time, when view data is sent to long-distance user's flash module by cell phone managing service module 510, just can represent by PC screen the effect that multi-point touch simulated operation produces remote handset image.

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

It should be noted that, the above embodiment of the present invention only controls this description being applied as example and carrying out of image scaling with multiple point touching, how of the present invention focusing on realizes long-range multi-point touch, multi-point touch is not limited the effect that the image of mobile phone screen produces, can different-effect be produced according to embody rule.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment made, equivalent replacement, improvement etc., all should be included within the scope of protection of the invention.

Claims (14)

1. a method for remote simulation multi-point touch, is characterized in that, the method comprises:
S1, between long-distance user's flash module and cell phone managing service module, and to connect in advance between cell phone managing service module and mobile phone terminal nucleus module;
S2, long-distance user's flash module obtain the analog track data of the multi-point touch that user is inputted by user terminal and send to mobile phone terminal nucleus module by cell phone managing service module, wherein, the analog track data of described multi-point touch comprise touch action and simulated touch extreme coordinates, described touch action is obtained by the action of pressing of catching keyboard, described simulated touch extreme coordinates by catch mouse click and drag action obtain;
S3, mobile phone terminal nucleus module are monitored and recognized the analog track data of described multi-point touch by described touch action after, described analog track data are converted to corresponding screen operator and to the touch-screen equipment write touch event 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's flash module by cell phone managing service module, so that described long-distance user's flash module shows the simulated screen of mobile phone.
3. method according to claim 1, is characterized in that, in described step S1, the connection of setting up between long-distance user's flash module and cell phone managing service module specifically comprises:
Cell phone managing service module opens ServerSocket service, in advance by IP address registration itself in the database at remote testing center;
Long-distance user's flash module obtains the IP address of described cell phone managing service module from the database at described remote testing center, sets up the connection with described cell phone managing service module.
4. method according to claim 1, is characterized in that, in described step S1, the connection of setting up between cell phone managing service module and mobile phone terminal nucleus module specifically comprises:
Mobile phone terminal nucleus module opens ServerSocket service, and described cell phone managing service module is connected by the port of described user terminal and the port of described mobile phone.
5. method according to claim 1, is characterized in that, described simulated touch point coordinate comprises the initial touch point of first of simulation finger and terminates touch point, and the initial touch point of second finger of simulation and terminate touch point.
6. method according to claim 5, is characterized in that, in described step S3, described analog track data is converted to corresponding screen operator and is specially:
By the initial touch point by the initial touch point of first of described simulation finger and second finger, and the end touch point of the end touch point of first finger and second finger is converted to corresponding screen resolution, thus realize the convergent-divergent to mobile phone screen-picture.
7. method according to claim 1, is characterized in that, described long-distance user's flash module and described cell phone managing service module run on described user terminal, and described mobile phone terminal nucleus module runs on long-range described mobile phone.
8. a system for remote simulation multi-point touch, is characterized in that, this system comprises: long-distance user's flash module, cell phone managing service module and mobile phone terminal nucleus module; Between long-distance user's flash module and cell phone managing service module, and connect in advance between cell phone managing service module and mobile phone terminal nucleus module;
Described long-distance user's flash module comprises: the track for obtaining the analog track data of the multi-point touch that user is inputted by user terminal obtains submodule, and for the analog track data of described multi-point touch to be sent to the first transmission submodule of described mobile phone terminal nucleus module by described cell phone managing service module, wherein, the analog track data of described multi-point touch comprise touch action and simulated touch extreme coordinates, described track obtains submodule and obtains described touch action by the action of pressing of catching keyboard, by catch mouse click and drag action obtain described simulated touch extreme coordinates,
Described mobile phone terminal nucleus module comprises: for monitoring and being recognized the second transmission submodule of the analog track data of described multi-point touch by described touch action, and for described analog track data being converted to corresponding screen operator and resolving to the track of the touch-screen equipment write touch event of mobile phone and event writes submodule.
9. system according to claim 8, is characterized in that, described mobile phone terminal nucleus module also comprises: Image Acquisition submodule, for the view data of Real-time Obtaining mobile phone screen;
Described second transmission submodule, also for described view data is sent to described long-distance user's flash module by cell phone managing service module;
Described remote handset flash module also comprises: image shows submodule, shows the simulated screen of described mobile phone on the screen at described user terminal, and in simulated screen, represent described view data.
10. system according to claim 8, is characterized in that, described cell phone managing service module opens ServerSocket service, in advance by the IP address registration of itself in the database at remote testing center;
First transmission submodule of described long-distance user's flash module obtains the IP address of described cell phone managing service module from the database at described remote testing center, sets up the connection with described cell phone managing service module.
11. systems according to claim 8, it is characterized in that, second transmission submodule of described mobile phone terminal nucleus module opens ServerSocket service, described cell phone managing service module is connected by the port of described user terminal and the port of described mobile phone, thus realizes the connection of described cell phone managing service module and described mobile phone terminal nucleus module.
12. systems according to claim 8, is characterized in that, described simulated touch point coordinate comprises the initial touch point of first of simulation finger and terminates touch point, and the initial touch point of second finger of simulation and terminate touch point.
13. systems according to claim 12, it is characterized in that, described track is resolved and event write submodule passes through the initial touch point of first of described simulation finger and second initial touch point pointed, and the end touch point of the end touch point of first finger and second finger is converted to corresponding screen resolution, thus realize the convergent-divergent to mobile phone screen-picture.
14. systems according to claim 8, is characterized in that, described long-distance user's flash module and described cell phone managing service module run on described user terminal, and described mobile phone terminal nucleus module runs on 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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Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP5870126B2 (en) * 2014-01-29 2016-02-24 株式会社Sji Application test system, method and program
CN105005529B (en) * 2014-04-16 2018-10-23 腾讯科技(深圳)有限公司 A kind of method and device that application program is tested
CN105988916B (en) * 2015-02-03 2019-01-08 阿里巴巴集团控股有限公司 Visualization method, device and system are carried out to the touch locus of points of touch panel device
CN105138463A (en) * 2015-09-25 2015-12-09 成都中科创达软件有限公司 Testing method and system for mobile terminal software

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6523137B1 (en) * 1999-10-12 2003-02-18 Cisco Technology, Inc. Method and system for remote testing of application program interfaces
CN1862508A (en) * 2005-05-13 2006-11-15 中兴通讯股份有限公司 Automatic testing system of person digital aid cell phone function and method thereof
CN102131001A (en) * 2011-03-21 2011-07-20 北京洋浦伟业科技发展有限公司 Remote control system and method of mobile communication terminal
CN102141957A (en) * 2010-10-21 2011-08-03 华为技术有限公司 Auxiliary test method, device and system for remote real machine
CN102193862A (en) * 2010-03-10 2011-09-21 微软公司 Testing user interfaces in multiple execution environments
CN102193863A (en) * 2011-04-26 2011-09-21 青岛海信移动通信技术股份有限公司 Method and device for implementing multi-point touch operation

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AT496381T (en) * 2008-10-07 2011-02-15 Research In Motion Ltd Sealed coupling circuit for a mobile electronic device
US20100095234A1 (en) * 2008-10-07 2010-04-15 Research In Motion Limited Multi-touch motion simulation using a non-touch screen computer input device
CN102053911A (en) * 2010-12-30 2011-05-11 东莞宇龙通信科技有限公司 Automated testing method and system based on Android and mobile terminal

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6523137B1 (en) * 1999-10-12 2003-02-18 Cisco Technology, Inc. Method and system for remote testing of application program interfaces
CN1862508A (en) * 2005-05-13 2006-11-15 中兴通讯股份有限公司 Automatic testing system of person digital aid cell phone function and method thereof
CN102193862A (en) * 2010-03-10 2011-09-21 微软公司 Testing user interfaces in multiple execution environments
CN102141957A (en) * 2010-10-21 2011-08-03 华为技术有限公司 Auxiliary test method, device and system for remote real machine
CN102131001A (en) * 2011-03-21 2011-07-20 北京洋浦伟业科技发展有限公司 Remote control system and method of mobile communication terminal
CN102193863A (en) * 2011-04-26 2011-09-21 青岛海信移动通信技术股份有限公司 Method and device for implementing multi-point touch operation

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