CN103369229A - Multiple device synchronous photographing method and multiple device synchronous photographing system - Google Patents

Abstract

The invention provides a multiple device synchronous photographing method and a multiple device synchronous photographing system. The multiple device synchronous photographing method is suitable for enabling a main device and at least a slave device to synchronously shoot photographs. The method comprises the following steps: a connection request is transmitted to each slave device by the main device, and therefore the main device can be connected with each slave device; shutter signals transmitted by any one of the devices are received by the main device and each slave device, and therefore photographs can be shot synchronously; photographs taken by each slave device is transmitted by each slave device to the main device; all photographs taken by the main device and all the slave devices are collected by the main device and are transmitted to each slave device.

Description

The synchronous shooting method and system of many devices

Technical field

The invention relates to a kind of method for imaging and system, and particularly relevant for a kind of synchronous shooting method and system of installing more.

Background technology

Progress along with mobile communication science and technology, the portable electronic devices such as mobile phone, panel computer (Tablet) are day by day popularized, these built-in multiple sensors of device and diversified application program be the functional and convenience of lifting device further, and then so that these devices become modern's one of upper indispensable instrument of living.

Take camera function as example, present portable electronic devices is built-in phtographic lens all, high speed processor by adaptation arrangement itself, the portable electronic devices person of being easy to use is photographic images whenever and wherever possible, and be connected with the outside by the built-in communication module of device, further captured image is shared with other people and watches.

Yet the camera function of portable electronic devices still only limits to the unit use at present.That is to say, can only use single device that the single face of object is taken pictures or made video recording at one time, can't take the different complexions of this object at one time, for example the complexion of different angles.Even if come object is taken pictures or made video recording with a plurality of devices, owing to can't link up each other between these devices, therefore also can't reach the synchronous shooting in the same time, the result can't or integrate with other device series windings so that the camera function of portable electronic devices still only limits to general digital camera.

Summary of the invention

In view of this, the present invention proposes a kind of synchronous shooting method and system of many devices, and a plurality of devices of can contacting are with synchronous photographic images.

The present invention proposes a kind of synchronous shooting method of many devices, is suitable for by main device and the synchronous photographic images of at least one slave unit.The method is to transmit the line request to each slave unit by main device, with set up its with each slave unit between be connected.Then, receive the wherein shutter signal of any device transmission by main device and each slave unit, with synchronous photographic images.Then, transmit captured image to main device by each slave unit.At last, collect the captured image of itself and all slave units by main device, and be sent to each slave unit.

In one embodiment of this invention, above-mentionedly transmit the line request to each slave unit by main device, comprise the affirmation information that is received each slave unit passback by main device to set up itself and the step that is connected between each slave unit, set up according to this one and take group, and transmit this link information of taking group to each slave unit, thereby set up its with each slave unit between be connected.

In one embodiment of this invention, after above-mentioned main device receives the step of affirmation information of each slave unit passback, described method also comprises by the affirmation information of main device according to each slave unit passback, judge the signal delay time that signal transmits between itself and each slave unit, and in link information, add signal delay time of each slave unit, with adjust each slave unit after receiving shutter signal to the shutter delay time between the photographic images.

In one embodiment of this invention, above-mentionedly transmit the line request to each slave unit by main device, also comprise by main device and receive the positional information that each slave unit returns to set up itself and the step that is connected between each slave unit.

In one embodiment of this invention, above-mentionedly collect the captured image of itself and all slave units by main device, comprise by the positional information of main device according to each slave unit and transmit collected image to the step of each slave unit, merging the captured image of itself and all slave units is the time freeze frame, and transmits this time freeze frame to each slave unit.

In one embodiment of this invention, above-mentionedly transmit the line request to each slave unit by main device, comprise also that to set up itself and the step that is connected between each slave unit the shooting that adds photographic images by main device in the line request sets, take according to this and set photographic images to control each slave unit.Wherein, the file format that comprises the employed screening-mode of photographic images, acquisition parameters and captured image, picture size, image style one of them or its combination are set in described shooting.

The present invention proposes a kind of synchronous shooting system of many devices, and it comprises at least one slave unit and main device.Wherein, each slave unit comprises the first image capture module and first communication module.Main device then comprises the second image capture module, second communication module and image collection module.Second communication module is to transmit the line request to the first communication module of each slave unit, to set up being connected between main device and each slave unit, wherein main device and each slave unit are to transmit shutter signal by above-mentioned the connection, with the second image capture module of driving main device and the synchronous photographic images of the first image capture module of each slave unit.The image collection module is to collect captured image and the captured image of the second image capture module of the first image capture module of each slave unit by above-mentioned connection, and transmits collected image to each slave unit.

In one embodiment of this invention, above-mentioned second communication module is used for receiving by above-mentioned connection the affirmation information of each slave unit passback, set up according to this one and take group, and transmit this link information of taking group to each slave unit, thereby set up its with each slave unit between be connected.

In one embodiment of this invention, above-mentioned second communication module is also according to the affirmation information of each slave unit by above-mentioned connection passback, judge the signal delay time that signal transmits between main device and each slave unit, thereby the signal delay time that in connecting signal, adds each slave unit, with adjust each slave unit after receiving shutter signal to the shutter delay time between the photographic images.

In one embodiment of this invention, above-mentioned each slave unit also comprises the first locating module, and it is when first communication module receives the line request, obtains the positional information of the present position of slave unit, and returns to main device.

In one embodiment of this invention, above-mentioned main device comprises that also the second locating module and image merge module.Wherein, the second locating module is the second place information that obtains the present position of main device.It then is the positional information that receives each slave unit passback by above-mentioned connection that image merges module, the image that the second image capture module of the first image capture module of each slave unit and main device is captured is merged into the time freeze frame according to this, and this time freeze frame is sent to each slave unit.

In one embodiment of this invention, above-mentioned main device also comprises the shooting setting module, sets in order to the shooting that adds photographic images in the line request, takes the setting photographic images to control each slave unit according to this.Wherein, the file format that comprises the employed screening-mode of photographic images, acquisition parameters and captured image, picture size, image style one of them or its combination are set in described shooting.

Based on above-mentioned, the synchronous shooting method and system of many devices of the present invention are to contact to connect by main device and a plurality of slave unit, and connect the shutter signal that transmission is triggered by these devices by this, thereby reach the effect of a plurality of device synchronous shootings.

For above-mentioned feature and advantage of the present invention can be become apparent, embodiment cited below particularly, and cooperate appended graphic being described in detail below.

Description of drawings

Fig. 1 is the calcspar of the synchronous shooting system of many devices of illustrating according to one embodiment of the invention;

Fig. 2 is the flow chart of the synchronous shooting method of many devices of illustrating according to one embodiment of the invention;

Fig. 3 is the calcspar of the synchronous shooting system of many devices of illustrating according to one embodiment of the invention;

Fig. 4 is the flow chart of the synchronous shooting method of many devices of illustrating according to one embodiment of the invention.

Description of reference numerals:

10,30: the synchronous shooting system;

12,32: slave unit;

122,142,322,342: image capture module;

124,144,324,344: communication module;

14,34: main device;

146,346: the image collection module;

326,348: locating module;

350: image merges module;

S202～S208: the step of the synchronous shooting method of many devices of one embodiment of the invention;

S402～S414: the step of the synchronous shooting method of many devices of one embodiment of the invention.

Embodiment

The present invention is got in touch by built-in communication module and other devices by main device, and sets up the connection between these devices.By this, when having device to trigger shutter signal, other devices also can receive shutter signal simultaneously, and then trigger the shutter photographic images.In addition, the present invention also further collects the captured image of all devices by main device, and sends other devices after processing to, thereby reaches the effect that image synchronization is taken and shared.

Fig. 1 is the calcspar of the synchronous shooting system of many devices of illustrating according to one embodiment of the invention.Please refer to Fig. 1, the synchronous shooting system 10 of the present embodiment comprises at least one slave unit 12 and main device 14, and its function is described below:

Include image capture module 122 and communication module 124 in each slave unit 12.Wherein, image capture module 122 for example is charge coupled cell (Charge Coupled Device, CCD) module or complementary matal-oxide semiconductor (Complementary Metal-Oxide Semiconductor, CMOS) module, and in order to gather image.Communication module 124 for example is to adopt the second generation (2G) or the third generation (3G) mobile communication technology, or adopt Wireless Fidelity (Wide Fidelity, WiFi), bluetooth (Bluetooth), Long Term Evolution (Long Term Evolution, the device of Radio Transmission Technology such as LTE), also can be the device that adopts wireline interface (for example networking port), and can be in order to carry out wired or wireless transmission with other devices.

Main device 14 comprises image capture module 142, communication module 144 and image collection module 146.Wherein, the function of image capture module 142 and communication module 144 and image capture module 122 and the communication module 124 of kind and above-mentioned slave unit 12 are identical or corresponding, do not repeat them here.Image collection module 146 for example is the hardware unit that combines with logic circuit component, but and carries out image collecting function, or be stored in the memory of main device 14 or the program in the hard disk, and can be written into the processor of main device 14, with the carries out image collecting function.

Specifically, Fig. 2 is the flow chart of the synchronous shooting method of many devices of illustrating according to one embodiment of the invention.Please refer to Fig. 2, the method for the present embodiment is applicable to the synchronous shooting system 10 of Fig. 1, below namely in conjunction with each item among Fig. 1, the detailed step of the synchronous shooting method of the present embodiment is described:

At first, utilize communication module 144 to transmit the line requests to the communication module 124 of each slave unit 12 by main device 14, to set up be connected (the step S202) between main device 14 and each slave unit 12.Wherein, main device 14 for example can be searched first and install on every side and show that on every side the inventory of device selects the object of the line of wanting for the user, or shows that directly contact list selects for the user.In addition, main device 14 also can provide multiple connection mode to select for the user, wherein can comprise wired or wireless connection mode, does not limit at this.

On the other hand, the communication module 124 of each slave unit 12 for example can show first the line request after receiving the line request, and then returns confirmation to main device 14 according to the indication that the user assigns.And the communication module 144 of main device 14 is after the affirmation information that receives each slave unit 12 passbacks, these device sets can be got up set up one and take group, and this link information of taking group is sent to each slave unit 12, so that each slave unit 12 can connect according to this link information and main device 14 and other devices, thereby at the transmission of data each other.

It should be noted that, above-mentioned linkage function for example is to be carried out by an application program (Application, APP) that is installed in the main device 14.When the user carries out this application program, this program namely can display unit or contact list select for the user, and send the line request according to selection result.Relative, in each slave unit 12 identical or corresponding application program is installed also, and can be manually booted by the user, or automatically started according to the indication in the line request by slave unit 12, do not limit at this.Specifically, main device 14 for example can be carried the program code of application program secretly in the line request, thereby control slave unit 12 automatically performs corresponding application program.Even if this application program is not installed in the slave unit 12, also can link to application program shop or fair download and set up applications according to this program code, thereby so that slave unit 12 can be supported the synchronous shooting method of the present embodiment.

Get back to the flow process of Fig. 2, main device 14 and each slave unit 12 can receive the shutter signal that any device wherein transmits by above-mentioned the connection, with the image capture module 142 that drives main device 14 and the image capture module 122 synchronous photographic images (step S204) of each slave unit 12.Wherein, main device 14 for example has the tripper (not illustrating) that provides to adopt hardware or software keys form with slave unit 12, provides by this user to press to trigger shutter.And when the user pressed this tripper, corresponding device namely can produce shutter signal, and sent other devices to by the connection of above-mentioned foundation, controlled by this other devices and triggered simultaneously shutter with photographic images.

Should be noted, consider each device to each other because of the not identical signal transferring lag that may cause of transmission information path with soft hardware equipment, the present embodiment also provides a kind of delay mechanism of aperture time, with the nonsynchronous problem of shutter between the solving device.Specifically, main device 14 for example can add the request of an automatic feedback information in the line request that sends each slave unit 12 to, to require each slave unit 12 after receiving the line request, return at once confirmation.By this, main device 14 can send the line request to the time length between the confirmation of receipt information according to it after the affirmation information that receives 12 passbacks of each slave unit, judges the signal delay time of signal transmission between its and each slave unit 12.At last, main device 14 will send this adding signal delay time in the link information of slave unit 12 again, so that slave unit 12 can be according to determining its number of seconds that required delay is taken after receiving shutter signal signal delay time, thereby reach shutter synchronization between the device of diverse location.

After each slave unit 12 is finished image taking, can captured image be sent to main device 14 (step S206) by above-mentioned connection.Last then collect the captured image of the captured image of the image capture module 122 of each slave unit 12 and itself image capture module 142 by the image collection module 146 of main device 14 by above-mentioned connection, and collected image is sent to each slave unit 12 (step S208) in the lump.

It should be noted that, for example also comprise in the main device 14 and take setting module (not illustrating), it can be in order to add the set point of photographic images in the line request that sends slave unit 12 in communication module 144 to, use each slave unit 12 of control and set photographic images according to this shooting, thereby obtain shooting condition, environment or the consistent image of result.Above-mentioned shooting is set such as the file format that is the employed screening-mode of photographic images (comprising aperture priority pattern, ShutterPriority Auto pattern, manual mode, automatic mode etc.), acquisition parameters and captured image, picture size, image style one of them or its combination, does not limit at this.

By said method, can reach synchronous shooting and sharing files between the different device, make things convenient for the user to record same shooting thing different images at one time, thereby increase the functional of device photographic images.

It is worth mentioning that, if the image of above-mentioned synchronous shooting is captured for same shooting thing, then according to camera site and the angle of each device, also can further all images be merged, thereby generate the time freeze frame of this shooting thing.

For instance, Fig. 3 is the calcspar of the synchronous shooting system of many devices of illustrating according to one embodiment of the invention.Please refer to Fig. 3, the synchronous shooting system 30 of the present embodiment comprises at least one slave unit 32 and main device 34, and its function is described below:

Each slave unit 32 includes image capture module 322, communication module 324 and locating module 326.Wherein, the function of image capture module 322 and communication module 324 is same or similar with image capture module 122 and the communication module 124 of previous embodiment, does not repeat them here.Locating module 326 for example is global positioning system (Global Positioning System, GPS), or utilize global mobile communication (Global System for Mobile Communication, GSM), Wireless Fidelity (Wide Fidelity, WiFi) etc. the device that positions of communication system is not limited at this.Locating module 326 for example also comprises gyroscope (Gyro sensor), gravity sensor (G-Sensor) and/or electronic compass (E-Compass), and can be in order to the orientation of detected image acquisition module 322 photographic images.

Main device 34 comprises that image capture module 342, communication module 344, image collection module 346, locating module 348 and image merge module 350.Wherein, the function of image capture module 342, communication module 344, image collection module 346 is same or similar with image capture module 142, communication module 144, the image collection module 146 of previous embodiment, the function of locating module 348 and the kind then locating module 326 with above-mentioned slave unit 32 are identical or corresponding, do not repeat them here.

Different from previous embodiment is, the main device 34 of the present embodiment comprises that also image merges module 350, and it can be according to the positional information of each slave unit 32, and main device 34 and slave unit 32 captured images are merged into the time freeze frame.Describe in detail for an embodiment with next.

Fig. 4 is the flow chart of the synchronous shooting method of many devices of illustrating according to one embodiment of the invention.Please refer to Fig. 4, the method for the present embodiment is applicable to the synchronous shooting system 30 of Fig. 3, below namely in conjunction with each item among Fig. 3, the detailed step of the synchronous shooting method of the present embodiment is described:

At first, utilize communication module 344 to transmit the line requests to the communication module 324 of each slave unit 32 by main device 34, to set up be connected (the step S402) between main device 34 and each slave unit 32.

Wherein, when slave unit 32 receives the line request in communication module 324, for example can utilize locating module 326 to obtain the positional information of its present position, and return to main device 34.Relative, main device 34 also for example can utilize locating module 348 to obtain the positional information of its present position (step S404) when sending the line request.

Then, receive the shutter signal that any device wherein transmits by main device 34 and each slave unit 32 by above-mentioned the connection, with the image capture module 342 that the drives main device 34 image capture module 322 synchronous photographic images (step S406) with each slave unit 32.Afterwards, each slave unit 32 namely is sent to main device 34 (step S408) by above-mentioned connection with captured image.

Then, collected the captured image (step S410) of image capture module 342 of the captured image of the image capture module 322 of each slave unit 32 and main device 34 by above-mentioned connection by the image collection module 346 of main device 34.At last, merge module 350 according to the positional information of main device 34 with each slave unit 32 by image, the image that image collection module 346 is collected is merged into time freeze frame (step S412).Specifically, if main device 34 and slave unit 32 are all placed round a specific shooting thing, and to take the synchronous photographic images of direction of thing towards this, image merges module 350 can be according to position and the shooting direction of each device, successively these image strings are linked to be the at one time consecutive image of middle different azimuth of this shooting thing, thereby generate so-called time freeze frame.

The user of each device at last, by above-mentioned connection the time freeze frame is sent to each slave unit 32 (step S414) by the communication module 344 of main device 34, so that all can see the time freeze frame after the merging.

By said method, the image integration that different device can be taken synchronously, and produce the image with time freezing efficiency, thus increase the functional of device photographic images.

In sum, the synchronous shooting method and system of many devices of the present invention are by installing specific application program in a plurality of devices, and when having device to initiate synchronous shooting, i.e. the automatically connection between apparatus for establishing.So that each device in this system can both trigger the shutter of other devices with photographic images.In addition, the captured image of each device can by device by oneself or unified processed by main device after, collect and be shared with again all devices by main device, thereby reach the effect that image synchronization is taken and shared.

It should be noted that at last: above each embodiment is not intended to limit only in order to technical scheme of the present invention to be described; Although with reference to aforementioned each embodiment the present invention is had been described in detail, those of ordinary skill in the art is to be understood that: it still can be made amendment to the technical scheme that aforementioned each embodiment puts down in writing, and perhaps some or all of technical characterictic wherein is equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution break away from the scope of various embodiments of the present invention technical scheme.

Claims (14)

1. the synchronous shooting method of device more than a kind is suitable for taking synchronously an image by a main device and at least one slave unit, and the method comprises the following steps:

This main device transmits a line request to each described slave unit, is connected to set up one between the described slave unit of itself and each;

This main device and each described slave unit receive a wherein shutter signal of arbitrary device transmission, with this image of synchronous shooting;

Each described slave unit transmits this captured image to this main device; And

This main device is collected the captured image of itself and all slave units, and transmits collected image to each described slave unit.

2. the synchronous shooting method of many devices according to claim 1, wherein this main device transmits this line request to each described slave unit, comprises with this step that is connected of setting up between the described slave unit of itself and each:

This main device receives a confirmation of each described slave unit passback, sets up according to this one and takes group; And

This main device transmits a link information of this shooting group to each described slave unit, thus set up its with each described slave unit between be connected.

3. the synchronous shooting method of many devices according to claim 2 wherein after this main device receives the step of this confirmation of each described slave unit passback, also comprises:

This main device is according to this confirmation of each described slave unit passback, judge its with each described slave unit between signal delay time of signal transmission; And

This main device adds this signal delay time of each described slave unit in this link information, with adjust each described slave unit after receiving this shutter signal to the shutter delay time of taking between this image.

4. the synchronous shooting method of many devices according to claim 2, wherein this main device transmits this line request to each described slave unit, also comprises with the step that is connected of setting up between the described slave unit of itself and each:

This main device receives a positional information of each described slave unit passback.

5. the synchronous shooting method of many devices according to claim 4, wherein this main device is collected the captured image of itself and all slave units, comprises and transmit collected image to the step of each described slave unit:

This main device is according to this positional information of each described slave unit, and merging the captured image of itself and all slave units is a time freeze frame; And

Transmit this time freeze frame to each described slave unit.

6. the synchronous shooting method of many devices according to claim 1, wherein this main device transmits this line request to each described slave unit, also comprises with the step that is connected of setting up between the described slave unit of itself and each:

This main device adds a shooting of taking this image in this line request sets, and sets this image of shooting to control each described slave unit according to this shooting.

7. the synchronous shooting method of many devices according to claim 6 wherein should shootings setting comprises a file format, a picture size, an image style one or its combination of the employed screening-mode of this image of shooting, an acquisition parameters and captured image.

8. the synchronous shooting system of installing a kind comprises more:

At least one slave unit, each described slave unit comprises one first image capture module and a first communication module; And

One main device comprises:

One second image capture module;

One second communication module, the line request that transmits is to this first communication module of each described slave unit, be connected to set up one between this main device and each described slave unit, wherein this main device and each described slave unit are connected by this and transmit a shutter signal, with synchronous shooting one image of this first image capture module of this second image capture module of driving this main device and each described slave unit; And

One image collection module connects captured image and the captured image of this second image capture module of this first image capture module of collecting each described slave unit by this, and transmits collected image to each described slave unit.

9. the synchronous shooting system of many devices according to claim 8, wherein this second communication module is used for connecting a confirmation that receives each described slave unit passback by this, set up according to this one and take group, and a link information that transmits this shooting group is to each described slave unit, thus set up its with each described slave unit between this be connected.

10. the synchronous shooting system of many devices according to claim 9, wherein this second communication module also is used for connecting this confirmation of passback according to each described slave unit by this, judge the signal delay time that signal transmits between this main device and each the described slave unit, by in this link information, adding this signal delay time of each described slave unit, with adjust each described slave unit after receiving this shutter signal to the shutter delay time of taking between this image.

11. the synchronous shooting system of many devices according to claim 9, wherein each described slave unit also comprises:

One first locating module when this first communication module receives this line request, is obtained a primary importance information of this present position of slave unit, and is returned to this main device.

12. the synchronous shooting system of many devices according to claim 11, wherein this main device also comprises:

One second locating module is obtained a second place information of this present position of main device; And

One image merges module, connect this positional information that receives each described slave unit passback by this, the captured image of this second image capture module that merges according to this this first image capture module of each described slave unit and this main device is a time freeze frame, and transmits this time freeze frame to each described slave unit.

13. the synchronous shooting system of many devices according to claim 8, wherein this main device also comprises:

One takes setting module, and adding is taken one of this image and taken setting in this line request, sets this image of shooting to control each described slave unit according to this shooting.

14. the synchronous shooting system of many devices according to claim 13, wherein this shooting is set and is comprised a file format, a picture size, an image style one or its combination of taking the employed screening-mode of this image, an acquisition parameters and captured image.

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