CN101489043B - Method for video data processing - Google Patents

Abstract

The invention relates to a video data handling method for acquiring a static state video during a dynamic video recording period comprising the following steps: generating a first dynamic video data containing a first resolution after stopping the dynamic video recording according to a first instruction, and performing a video preview in an established time; outputting the previewed video during the established time, and generating a first temporary storage dynamic data containing a second resolution; acquiring a static state video containing a third resolution according to a second instruction after the established time; and transferring the first temporary storage dynamic data and the static state video data and combining with the first dynamic video data to the second dynamic data containing the first resolution. The invention can carry out the photograph function during the video recording period for the digital camera.

Description

The method that a kind of image data is handled

Technical field

The present invention relates to the method that a kind of image data is handled, capture the method for the dynamic image data processing of static image when especially being applied in video recording again.

Background technology

The development of filming image technology is by the shooting of acquisition progress to the dynamic image of static image; And the recording mode of known now dynamic image with the plural frame picture of continuous acquisition (promptly; Static image) mode realizes; And according to user's indication, the paragraph of desire record or the dynamic image preserved is stored on tape or the hardware memory devices becomes dynamic video file, carries out broadcasting of image data through playing device or display device again.Wherein, Desire form output collection if in the dynamic video file excellent picture is arranged with static image; When perhaps desiring to carry out posture comparison, analysis; On known technology, normally write down in the dynamic video file of completion and captured the required picture of plural frame, with usefulness as output of photo form or image editing by portion.

With reference to figure 1, be known dynamic video file sketch map.Particularly; Plural frame picture f1～fn that known dynamic video file is made up of the static image data is connected in series in regular turn and forms; And these pictures f1～fn carries out the pick-up image data according to the resolution of VGA specification, and these pictures f1～fn that is therefore captured only is connected in series in regular turn with the static image data of 640 pixels * 480 pixel resolutions and is stored in the storage device to form dynamic video file.So, if desire directly by capturing required at least one frame picture in the dynamic video file, then will be too little, be difficult to provide static image with big resolution because of the resolution of original picture f1～fn, and can't satisfy user's demand.

In US publication is the patent application of 2004-0109067A1, disclose a kind ofly during dynamic image is taken, capture the device of static image, to obtain dynamic video file and static video file.This publication discloses the user press shutter release button after; The static image picture of the last output of image-pickup assembly will expressly duplicate in system, and repeat to insert these pictures of institute's vacancy to the dynamic video file, so; Though can remedy slightly because of the picture forfeiture not good flaw of dynamic video file fluency that causes; But, will cause the forfeiture of more dynamic image frames because of the overlong time of dynamically recording a video and interrupting if during dynamic image is taken, expend long time acquisition static image; And make when filling up the picture of these forfeitures; Insert too much because of duplicating identical data, the situation that causes having pause at the image of browsing this period takes place, and influences the continuity of image action.Therefore, utilize the resulting dynamic video file of the disclosed mode of this publication, it presents the space that fluency on the picture still has improvement.

Summary of the invention

The technical problem that the present invention will solve is that to the above-mentioned defective of prior art, the method that provides a kind of image data to handle captures static image during dynamically making video recording, the image fluency in the time of can improving the dynamic video file broadcast simultaneously.

The technical solution adopted for the present invention to solve the technical problems is; The method that provides a kind of image data to handle, its step are to stop dynamic image video recording back generation according to first instruction to have first dynamic image data of first resolution, and carry out the image preview in the given time; And in this scheduled time; With the image output of preview, produce the first temporary dynamic data with second resolution, the back is according to second instruction at the fixed time; Acquisition has the static image data of the 3rd resolution, is combined into second dynamic data with first resolution with the first temporary dynamic data and static image data transaction and with first dynamic image data more at last.

Characteristic of the present invention is image data when utilizing the static image preview and the static image data that captured; In order to fill up the image data that first dynamic image data is lost during the static image acquisition; Wherein lost the method for image data during this period with the static image data filling; Be to have the demonstration speed of per second n frame picture and carry out static image with this first dynamic image data to capture required time m second; Calculate the frame number p that dynamic image is lost with p=m * n, again these static image data are duplicated the p frame at last, and deposit into the second temporary dynamic data; This first temporal data together with after this first dynamic image data and the conversion makes up, and becomes second dynamic data.

The mode of the present invention because of utilizing the data combination of preview screen image data collocation static image to fill up even make the overlong time of carrying out in the photography pattern, still can not cause the discontinuous situation of image to take place.

The invention provides a kind of effective image treatment method, realized during recording a video, carrying out high-resolution static image acquisition, not only obtain high-resolution static image, more obtain the video file identical with the common dynamic quality of image.

Description of drawings

To combine accompanying drawing and embodiment that the present invention is described further below, in the accompanying drawing:

Fig. 1 is known dynamic video file sketch map.

Fig. 2 A is according to image capture unit action sketch map of the present invention.

Fig. 2 B is an image-pickup assembly output sketch map.

Fig. 2 C is that image capture unit is put sketch map operate time.

Fig. 2 D is the dynamic video file sketch map.

Fig. 3 is the image capture unit circuit block diagram.

Fig. 4 is an action flow chart.

The drawing reference numeral explanation:

The 301-switching device

The 302-control unit

The 303-drive circuit

The 304-image-pickup assembly

305-analog-to word cell

306-mnemon

The 307-display unit

The 308-storage element

Embodiment

Embodiments of the invention provide a kind of in the shooting process of dynamic image, capture the method and the device of static image, can be applicable in the image capture unit.

Shown in Fig. 2 A, be image capture unit action sketch map, for present embodiment in dynamic image take action REC1 and REC2 during, image capture unit carries out the acquisition of frame static image data.Wherein, before first static image acquisition action SIC1, this image capture unit after receiving instruction, carries out first static image acquisition action SIC1 with carrying out the first image preview action PI1 earlier again.

Shown in Fig. 2 B, be this image-pickup assembly output sketch map.Corresponding to Fig. 2 A, image-pickup assembly is exported the first dynamic image data R1 in regular turn, the first temporary dynamic data P1, and the first static image data S1.This image capture unit is during first dynamic image is taken action REC1, and this image-pickup assembly is exported this first dynamic image data R1; During first preview image action PI1, export this first temporary dynamic data P1; And during first static image captures action SIC1, export these first static image data S1,, second dynamic image exports the second dynamic image data R2 during taking action REC2 afterwards.

Shown in Fig. 2 C, be that image capture unit is put sketch map operate time.Compare Fig. 2 A and Fig. 2 B simultaneously, in start time point T0, when the user presses shutter release button entirely, send enabled instruction, this image capture unit begins first dynamic image and takes action REC1, this this first dynamic image data of image-pickup assembly output R1; In very first time point T1, when shutter release button is partly pinned, send first instruction, this image capture unit begins to carry out first preview image action PI1, and the image data of storage preview is this first temporary dynamic data P1; In the second time point T2, when operation that shutter release button is pressed entirely, send second instruction after partly pinning; This image capture unit begins to carry out first static image acquisition action SIC1, captures these first static image data S1, after acquisition is accomplished; In the 3rd time point T3; The shooting of attitude image of reversing of automaticallying switch of this image capture unit is carried out second dynamic image and is taken action REC2, this this second dynamic image data of image-pickup assembly output R2; In the 4th time point T4, when shutter release button during, send command for stopping once more by full push, this image capture unit stops second dynamic image and takes action REC2, gets back to standby mode.

Shown in Fig. 2 D, be the dynamic video file sketch map.When this image capture unit was taken action at dynamic image, the mode that dynamic video file constitutes constituted plural frame picture f1～fn+n by the picked image data and is connected in series in regular turn and forms.

More specifically, before the dynamic image screening-mode, when the user did not assign enabled instruction as yet, this image capture unit was in standby mode, and this moment, the image data of this image-pickup assembly output was only shown by display unit, and stored action; When in start time point T0; Shutter release button is during by full push; Send this enabled instruction; This image capture unit gets into first dynamic image immediately and takes action REC1; This first dynamic image data R1 that this image-pickup assembly output has this first resolution during this, this image capture unit is treated to this plural number frame picture f1～fn+1 with this first resolution according to the speed of appointment with this first dynamic image data R1 in regular turn, and for example this first resolution can be 640 pixels * 480 pixels; When very first time point T1, partly pin shutter release button, send this first instruction; This image capture unit stops first dynamic image and takes action REC1; And this dynamic image data is processed into has this first resolution and have this first dynamic image data R1 that per second n frame picture shows speed, wherein n can be 30 frames, its representative is the demonstration speed with per second 30 frame pictures; Carry out the first preview image action PI1 in the static image acquisition pattern afterwards and in the given time; During this action, to subject focus, the calculating of white balance and exposure, and output has this first temporary dynamic data P1 of second resolution; This image capture unit stores this first temporary dynamic data P1, and for example this second resolution can be 720 pixels * 480 pixels; Afterwards this first temporary dynamic data P1 is converted into and have this first resolution, and be equivalent to the preview image data of this plural number frame picture fn+2～fn+3.This image capture unit is behind first preview image action PI1; Press the operation of shutter release button at the second time point T2 more entirely by the state of partly pinning, send this second instruction, carry out first static image acquisition action SIC1; This image-pickup assembly begins to export these the first static image data S1 with the 3rd resolution; Wherein the 3rd resolution is looked the dimensions of this image-pickup assembly, can be 3648 pixels * 2736 pixels or 3264 pixels * 2448 pixels etc., after through the m static image output completion of second; Promptly automatically perform second dynamic image and take action REC2; Export this second dynamic image data R2, wherein the m representative is the second number of this static image data acquisition time, looks the length of acquisition time; Possibly be 1 second, 1.2 seconds or 2.3 seconds or the like; And this image capture unit is except that being the static video file with these first static image data S1 processed compressed, again these first static image data S1 is treated to have this first resolution the demonstration speed of per second n frame picture and be equivalent to the second temporary dynamic data of this plural number frame picture fn+4～fn+7 in addition.Last in regular turn with this first dynamic image data R1, be combined into second dynamic data by this preview image data of this first temporary dynamic data P1 conversion and by this second temporary dynamic data after these first static image data S1 conversion.When time point T4 presses shutter release button for the second time entirely, send this command for stopping, finish second dynamic image and take action REC2, this image capture unit stops the dynamic image screening-mode, is back to standby mode.

The composing method of above-mentioned this second temporary dynamic data is more specifically recorded m after second, the p frame picture that is had if desire is calculated the dynamic image data with per second n frame picture demonstration speed in process; Can be by calculating among calculating formula p=m * n, in like manner, if desire is calculated during the static image acquisition; The frame number that dynamic image data had can be brought the time of static image acquisition into following formula m according to the calculating of following formula; In the hope of p frame picture, therefore has the dynamic image data that per second n frame picture shows speed, in capturing time m after second through static image; The p frame picture that in this time, is had can be calculated and got, for instance by p=m * n; If the dynamic image data in present embodiment has the speed of demonstration n=30 frame/second, capturing time m=2 after second through static image, the dynamic image data in this time promptly should have p=2 * 30=60 frame picture; Therefore, represent this dynamic image data during the static image acquisition, the picture of 60 frames should be arranged.And the method that this second temporary dynamic data is formed is earlier via calculating in the above-mentioned computational methods during the static image acquisition; This dynamic image data the p frame picture that should have; Convert to by these first static image data S1 again and have this first resolution, duplicate p frame and serial connection again and become this second temporary dynamic data.

Above-mentioned this image-pickup assembly can be via setting to control the image data resolution of its output; Therefore the resolution of above-mentioned this first temporary dynamic data P1 of this image-pickup assembly output; Can be via after setting, the image data of controlling this output promptly has this first resolution.

With reference to Fig. 3, be the circuit block diagram that illustrates image capture unit in the present embodiment.

This image capture unit in the present embodiment comprises switching device 301, control unit 302, drive circuit 303, image-pickup assembly 304, analog-to word cell 305, mnemon 306, display unit 307 and storage element 308.

This switching device 301, in order to open the beginning, to finish a plurality of pattern actions that this image capture unit has, this switching device 301 is shutter release buttons, utilizes the operation of partly pinning or pressing entirely to send instruction, different start patterns is carried out in indication.

This control unit 302 in order to the execution of action, input signal computing and the judgement of controlling each inter-module shown in Figure 3, and sends signal and gives this drive circuit 303 and use this image-pickup assembly 304 of control and open actions such as beginning, end and mode switch.Wherein, this control unit 302 can be digital signal processing unit (DSP) or CPU (CPU).

This drive circuit 303 in order to drive this image-pickup assembly 304 actions, according to the instruction of input, is controlled this image-pickup assembly 304 and is carried out corresponding operation state.

This image-pickup assembly 304; The light beam that comes from the incident of object institute in order to sensing; And, export dynamic image analog signal or static image analog signal with a batch mode according to dynamic image output mode or static image output mode that this control unit 302 is assigned.

This analog-to word cell 305 in order to being digital signal from the analog signal conversion of this image-pickup assembly 304, carries out calculation process for this control unit 302.

This mnemon 306, temporary in order to data can supply this control unit 302 fast by these mnemon 306 reading of data and write data.

This display unit 307 captures preceding preview screen in order to show static image, and the dynamic image data or the static image data that have been stored in this mnemon 306 or this storage element 308, for the function of browsing and inspecting.

After this image capture unit start in embodiment; Promptly get into standby mode; This control unit 302 sends signal immediately and gives this drive circuit 303 to control the startup of this image-pickup assembly 304; Make this image-pickup assembly 304 image output data under the dynamic image output mode, and show the presentation content that thing is taken in this image capture unit acquisition by this display unit 307; When if this switching device 301 is full push; Send this enabled instruction; The dynamic image data of the simulation that this analog-to word cell 305 is exported this image-pickup assembly 304 is temporary in this storage element 308 earlier after converting the dynamic image data of numeral to; By this control unit 302 dynamic image data is carried out image processing again; After being processed into this first dynamic image data R1, be stored in this mnemon 306, and show that by this this display unit 307 of control unit 302 controls this first dynamic image data R1 that deposits in this mnemon 306 supplies the user to browse and inspect; And write this storage element 308, store this first dynamic image data R1 that becomes to have per second n frame demonstration speed and this first resolution.

During first dynamic image is taken action REC1; When this switching device 301 is operated for partly pinning; Send this first instruction; After this control unit 302 was received the signal that is sent by this switching device, this control unit 302 stopped this first dynamic image data R1 is write this storage element 308, and began to carry out first preview image action PI1; This moment to subject focus, the calculating of white balance and exposure; This first temporary dynamic data P1 that calculates back output through this control unit 302 delivers to this display unit 307 and shows, again this first is kept in dynamic data P1 and is processed into this preview image data of this first resolution of tool via this control unit, is stored to this storage element 308; When this switching device 301 is when partly pinning the operation of pressing entirely again, send this second instruction, this control unit 302 starts clocking capability; And output signal to this drive circuit 303; Control this image-pickup assembly 304 and switch to the static image output mode, and export these first static image data S1, after output is accomplished; This control unit 302 stops timing; And send enable signal and give this drive circuit 303, after the output mode of controlling this image-pickup assembly 304 switches the attitude image output mode that reverses, export this second dynamic image data R2.This control unit 302 converts these first static image data S1 into static video file earlier simultaneously; And write this storage element 308, according to preset calculation method, calculate the p value again; This moment this control unit 302 in addition with these first static image data S1 be processed into have this first resolution and this second temporary dynamic data for p frame picture after; Write this storage element 308, after by this control unit 302 this first dynamic image data R1, this preview image data and this second temporary dynamic data all being read at last, in conjunction with handling; Producing this second dynamic data, and this second dynamic data is write this storage element 308.The wherein calculation of this p value; More particularly; Be the result of gained of multiplying each other time of the demonstration speed n value that had by this first dynamic image data R1 and 302 timing of this control unit; This result during these first static image data S1 acquisition in, form the number of pictures of dynamic image data during this period.

When this switching device 301 is during for the second time by full push, send this command for stopping, after this control unit 302 is received signal, stop the action that this second dynamic image data R2 writes this storage element 308, this moment, this image capture unit was got back to standby mode.

, be the action flow chart that illustrates present embodiment please with reference to Fig. 4.

Dynamic image in present embodiment is taken the method for carrying out the static image acquisition, comprises following steps:

Step (A): during standby mode, shutter release button is pressed entirely, then begins to carry out dynamic image and takes, and save as this first dynamic image data with this first resolution;

Step (B): when shutter release button is partly pinned, stop the action of step (A), and carry out preview image action, and be this preview image data with this first resolution with the image data conversion process of this preview image.

Step (C): if when shutter release button is pressed after partly pinning entirely again; Then capture this first static image data; Reply dynamic image video recording action after accomplishing; Be this static video file and this second temporary dynamic data with this static image data conversion treatment again, at last this first dynamic image data, this preview image data and this second temporary dynamic data be combined into this second dynamic data in regular turn with this first resolution.

Step (D): after shutter release button is pressed entirely, finish dynamic image and take, get back to standby mode.

By above-mentioned steps more particularly, more can may further comprise the steps:

Step 1: like flow process S101.This image capture unit is under standby mode.

Step 2: like flow process S102.Judge whether shutter release button is pressed entirely, if not, then get back to flow process S101 and continue as standby mode; If then carry out flow process S103.

Step 3: like flow process S103.Carry out the dynamic image shoot function, and save as this first dynamic image data with this first resolution and per second n frame.

Step 4: like flow process S104.During carrying out the dynamic image shooting, judge the state of shutter release button, if constant, then carry out flow process S103; If partly pinned state, then carry out flow process S105; If by full down state, then carry out the flow process S108 of step 8.

Step 5: like flow process S105.Getting into static image acquisition pattern, carry out the action of preview image, during the course, is this preview image data with this first resolution with the data transaction of preview image.

Step 6: like flow process S106.During carrying out the image preview action, judge the shutter release button state, if keep partly pinning state, then continue flow process S105; If when being pressed entirely, then carry out flow process S107 by the state of partly pinning.

Step 7: like flow process S107.Carry out static image acquisition action; And the function that picks up counting, after acquisition is accomplished, stop the timing action; At last these static image data that captured are compressed on the one hand and deposited into this static video file; On the other hand according to before time and the n value of step 3 of institute's timing calculate p value, this that this static image data transaction one-tenth is had this first resolution and has p frame static image data second kept in dynamic data, at last this first dynamic image data, this preview image data and this second kept in after dynamic data is combined into this second dynamic data; Get back to flow process S103, proceed dynamic image and take action.

Step 8: like flow process S108, stop dynamic image and take action, be back to standby mode.

The embodiment that this paper lifted; Be to be used to explain characteristics of the present invention, main purpose is understood content of the present invention and enforcement according to this for making those skilled in the art, and non-limiting claim of the present invention; So all other do not take off the modification or the modification of spirit of the present invention, must be included in the claim.

Claims (8)

1. the method that image data is handled captures static image during the dynamic image video recording, it is characterized in that, comprises the following step:

(A) stop dynamic image video recording back according to first instruction and produce first dynamic image data with first resolution;

(B) carry out the image preview at the fixed time, output has the first temporary dynamic data of second resolution;

(C) convert this first temporary dynamic data into preview image data with this first resolution;

(D) after this scheduled time, instruct according to second, acquisition has the static image data of the 3rd resolution;

(E) calculate during this static image data acquisition; Show that speed is the frame number p of the dynamic image data of per second n frame picture; This static image data transaction is become to have this first resolution, duplicates the second temporary dynamic data that p frame and serial connection form again, and wherein n, p are positive integer;

(F) in regular turn with this first dynamic image data, be combined into second dynamic data with this first resolution by this preview image data and this second temporary dynamic data of this first temporary dynamic data conversion; And

(G) after the static image data acquisition is accomplished, the shooting of attitude image of reversing of automaticallying switch.

2. the method that image data as claimed in claim 1 is handled is characterized in that this first dynamic image data has the demonstration speed of per second n frame picture.

3. the method that image data as claimed in claim 2 is handled is characterized in that execution in step (D) takes m second, and wherein m is a positive number.

4. the method that image data as claimed in claim 3 is handled is characterized in that, this second temporary dynamic data has the demonstration speed of per second n frame picture.

5. the method that image data as claimed in claim 4 is handled is characterized in that, in the said step (E), these static image data is duplicated the p frame, makes p/m=n.

6. the method that image data as claimed in claim 1 is handled is characterized in that, in the said step (B), carries out the image preview and comprises the following steps:

(B1) in this scheduled time, subject is carried out focusing, white balance and exposure computing.

7. the method that image data as claimed in claim 1 is handled is characterized in that this second resolution equals this first resolution.

8. the method that image data as claimed in claim 1 is handled is characterized in that this second resolution is not equal to this first resolution.

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