JP2001111934A - Electronic camera system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electronic camera system that can realize photographing of moving pictures to record the moving pictures always with stable quality by compensating degraded quality of moving picture data due to a missing frame in the case of photographing a still picture during photographing the moving pictures. SOLUTION: This invention disclose the electronic camera system that has both a moving picture photographing function and a still picture photographing function. A moving picture processing section 110 for photographing moving pictures includes a frame interpolation section 114. The frame interpolation section 114 uses moving picture data (concretely moving picture frames before and after a missing frame) recorded in a recording medium 15 after the end of photographing the moving picture to execute the frame interpolation processing to generate missing moving picture frames by photographing a still picture through interruption.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic camera device having a moving image photographing function and a still image photographing function.

[0002]

2. Description of the Related Art In recent years, electronic cameras that convert a subject into image data by an electronic imaging function and record the image data on a recording medium have become widespread. The electronic camera includes a digital video camera whose main function is moving image shooting, in addition to an electronic still camera also called a digital camera.

Recently, a product having both a still image shooting function and a moving image shooting function has been developed as an electronic camera. As a specific example, there is an electronic camera having the components shown in FIG.
08121).

In this electronic camera, an image pickup unit 1 including a lens, an image pickup device such as a CCD, and an A / D converter is provided, and digital image data obtained from the image pickup unit 1 (hereinafter simply referred to as image data). Is sent to the still image recording unit 3 via the buffer unit 2. On the other hand, the image data is sent to the moving image recording unit 5 through a process of reducing the pixel density by the pixel density conversion unit 4. The still image recording unit 3
Image processing such as image compression is performed using the image data as a still image, and the image data is recorded on a recording medium 6 such as a memory card. In addition, the moving image recording unit 5 performs image processing on the image data with reduced pixel density (image data with a smaller number of pixels than a still image) as a moving image, and records the image data on the recording medium 6.

Here, when a still image shooting instruction (instruction signal R) is given during the moving image shooting operation, the still image shooting image data obtained from the imaging unit 1 is temporarily stored in the buffer unit 2. I do. Then, after the moving image recording operation by the moving image recording unit 5 is completed (completion signal E), the still image recording unit 3
Processes the image data stored in the buffer unit 2 as a still image and records it on the recording medium 6.

[0006]

As described above, in the case of an electronic camera having both a still image photographing function and a moving image photographing function, if a user has a photo opportunity during photographing a moving image, a still image photographing operation (so-called photographing operation) is performed. Photography). However, not only the difference in resolution (pixel density) but also the so-called shooting conditions are essentially different between still image shooting and moving image shooting.

That is, in still image shooting, it is necessary to secure not only a high-resolution image but also a sufficient length of exposure time, for example. Further, in order to maintain the quality of the image signal, it is necessary to close the shutter for a relatively long time (about 100 msec). On the other hand, in the moving image shooting processing, it is generally necessary to process one frame of still image data every 30 frames / second, that is, every 1/30 second.

Therefore, when still image shooting is performed during moving image shooting, moving image shooting (recording of moving image frames) is interrupted until still image shooting ends, and after that, moving image shooting is resumed. For this reason, when movie shooting ends,
A moving image frame (hereinafter, sometimes referred to as a missing frame) that is missing from the moving image frame group occurs with the still image shooting. When reproducing moving image data including such a missing frame, there is a problem that the reproduced image quality is reduced.

Accordingly, an object of the present invention is to always record a moving image of stable quality by compensating for the deterioration of the quality of moving image data due to a missing frame when photographing a still image during moving image shooting. An object of the present invention is to provide an electronic camera device capable of capturing a moving image.

[0010]

SUMMARY OF THE INVENTION The present invention relates to an electronic camera apparatus having both a moving image photographing function and a still image photographing function, and records moving image data consisting of a plurality of moving image frames continuous at the time of moving image recording on a recording medium. Moving image processing means,
The apparatus includes instruction means for instructing still image shooting, control means for interrupting still image shooting at the time of moving image shooting, and missing frame interpolation means for generating a moving image frame lost by still image shooting.

[0011] The missing frame interpolation means uses the moving image data (specifically, moving image frames before and after the missing frame) recorded on the recording medium after the moving image shooting is completed, and removes the moving image frame lost by the still image shooting. Is performed to generate a frame interpolation. Further, the missing frame interpolation means may be configured to execute frame interpolation processing for generating a missing moving image frame using still image data obtained by still image shooting.

With such a configuration, when a still image is shot during the shooting of a moving image, a moving image frame missing during the still image shooting can be generated and interpolated into moving image data. Therefore, even when a still image shooting interrupt process is performed during moving image shooting, it is possible to record data in which missing frames are interpolated as moving image data obtained by moving image shooting. Therefore, the moving image data can realize moving image reproduction with stable reproduction quality.

[0013]

Embodiments of the present invention will be described below with reference to the drawings.

(Configuration of Electronic Camera) FIG. 1 is a block diagram showing a main part of an electronic camera according to the embodiment.
The electronic camera according to the embodiment is assumed to be an electronic still camera (digital camera) having a still image photographing function as a main function and also having a moving image photographing function. Naturally, the present invention can be applied to a digital video camera having a moving image photographing function as a main function and also having a still image photographing function.

As shown in FIG. 1, the electronic camera according to the embodiment is roughly divided into a photographing system 10, an image processing unit 11, a system controller 12, a display system 13, an input operation system 14, and a recording system having a recording medium 15. It is composed of In addition to this, there is an output system for outputting image data to the outside, but the description is omitted in this embodiment.

First, the photographing system 10 has a lens 100, an image sensor 101, and an A / D converter 102. In addition, it also has elements such as a diaphragm and a shutter. The image sensor 101 is usually a CCD (Char) having several million pixels.
and a photoelectric conversion device (outputs an image signal). In the moving image processing, since image data of several hundred thousand pixels is used, the pixel density is reduced by the thinning unit 112 as described later.

The lens 100 is configured to be driven for focus (zoom) by an auto focus (A / F) mechanism (not shown). A / D converter 102
Converts an image signal (analog signal corresponding to the number of pixels) obtained from the image sensor 101 into a digital signal (image data) and sends it to the image processing unit 11. Actually, the image signal obtained from the image sensor 101 is subjected to various signal processing such as gamma correction and white balance adjustment.

The image processing section 11 is specifically composed of an image processing CPU (microprocessor) and a memory storing its control program. The moving image processing unit 110, the still image processing unit 111, and the thinning unit 112 shown in FIG.
Is a functional element by the CPU. Buffer memory 11
Reference numeral 3 is also called a frame memory and stores, for example, image data (still image data) for one screen (one frame).

The moving image processing unit 110 functions in a moving image shooting mode, and executes image compression processing (for example, motion JPEG compression) on image data (for example, hundreds of thousands of pixels) whose pixel density has been reduced by the thinning unit 112. Is recorded on the recording medium 15 as a continuous file (moving image data). The recording medium 15 includes a moving image recording unit (storage area) 150 and a still image recording unit 151, as described later. The moving image processing unit 110 records a plurality of moving image frames constituting moving image data obtained by moving image shooting in the shooting frame area 150 </ b> A of the moving image recording unit 150. At this time, the moving image processing unit 110 adds shooting time data (time information) to each moving image frame and records it in the shooting frame area 150A.

The moving image processing unit 110 of the embodiment includes a frame interpolation unit 11 for executing a missing frame interpolation process described later.
4 After a series of moving image shooting is completed in response to an instruction (M) from the system controller 12, the frame interpolation unit 114 sets the shooting frame area 15 on the recording medium 15.
By accessing 0A, a missing frame in the moving image data corresponding to the moving image shooting is detected (the detection method will be described later). Further, the frame interpolation unit 114 generates a moving image frame (which may be referred to as an interpolated frame) corresponding to the missing frame by performing an interpolation process using the moving image frame recorded in the shooting frame area 150A (see FIG. 2 and FIG. 2). See FIG. 3). The frame interpolation unit 114 records the generated interpolation frame in the interpolation frame area 150B by adding shooting time data to be added to the missing frame. In addition, the moving image processing unit 110 sends the moving image data to the EVF display control unit 130 of the display system 13 and causes the finder 131 to display the moving image data.

The still image processing unit 111 performs various processing such as image compression processing and image decompression processing for obtaining a still image on the image data (millions of pixels not thinned out) output from the A / D converter 104. And temporarily store it in the buffer memory 113. Still image processing unit 111
Adds the still image shooting time data to each still image data and records the data in the still image recording unit 151 of the recording medium 15. If the still image shooting is interrupted during the moving image shooting, the system controller 12 returns to the moving image shooting mode after the end of the still image shooting. Therefore, the still image processing unit 111 sets the buffer memory 11
3 is recorded in the still image recording unit 151 of the recording medium 15.

The system controller 12 includes a control CP
It comprises a U (microprocessor) and a memory storing its control program, and controls each element of the imaging system 10, the image processing unit 11, and the recording medium 15. Specifically, the system controller 12 receives the operation input of the moving image start / stop (S / S) button 141 of the input operation system 14 and controls the start and stop of the moving image shooting (output of the control signal M).

The system controller 12 also operates a still image release (shutter) button 140 of the input operation system 14.
, And controls still image shooting. That is, the system controller 12 controls the still image processing unit 111
And the operation of the moving image processing unit 110. In the embodiment, the still image shooting operation can be executed regardless of the moving image shooting operation. However, when a moving image is being shot, the moving image shooting operation is interrupted, and after the still image shooting operation is completed, the moving image shooting operation is restarted. In addition, even in the case where the moving image shooting operation is interrupted, the moving image processing unit 110 functions and supplies continuous image data (moving image data) to the display system 13.

Further, the system controller 12 executes automatic aperture shutter control and A / F control. Specifically, when a still image shooting operation is performed in the moving image shooting mode, control is performed so that the lens 100 is fixed at the immediately preceding A / F state. Normally, at the time of moving image shooting operation, lens 1
At 00, the A / F drive is always executed. Therefore, it is desirable that the A / F position of the lens 100 be fixed during the still image shooting operation.

The display system 13 is an EVF (Electro-
A view finder includes a display control unit 130 and a finder 131 serving as a liquid crystal monitor. The EVF display control unit 130 receives moving image data (video data) from the moving image processing unit 110 and causes the finder 131 to display the data.

The recording medium 15 is a replaceable recording medium such as a memory card (for example, an IC memory in which a flash EEPROM is mounted), a magneto-optical disk, a magnetic disk (floppy disk or hard disk), or the like.

(Shooting Operation and Missing Frame Interpolation Process) Hereinafter, the shooting operation and the missing frame interpolation process of the embodiment will be described with reference to FIG. 1 and the flowcharts of FIGS. In the present embodiment, it is assumed that still image shooting is interrupted during moving image shooting.

When the moving image start button 141 is operated by the user, the system controller 12
10 (control signal M) to start a moving image shooting operation based on the automatic moving image shooting conditions (Y in step S1).
ES, S2). Specifically, as described above, the moving image processing unit 110 inputs the image data obtained by the imaging system 10 after the pixel density is reduced by the thinning unit 112,
Execute moving image processing. The moving image processing unit 110 records the processed moving image data (video data) on the recording medium 15 as a file including a plurality of continuous moving image frames. Each moving image frame is recorded in the shooting frame area 150A of the moving image recording unit 150. Also, the video processing unit 110
Sends the moving image data to the EVF display control unit 130 of the display system 13 and causes the finder 131 to display the moving image data.

When the still image release button 140 is operated to shoot a still image during the shooting of a moving image, the system controller 12 interrupts the moving image shooting operation and shifts to the still image shooting operation (NO in step S3). , S4 YE
S). However, the moving image processing unit 110 continues the process of transmitting the video data to the display system 13. The system controller 12 controls the still image processing unit 1 of the image processing unit 11.
11 (control signal S) to execute a still image shooting operation (step S5). Specifically, the still image processing unit 11
1 executes various processes such as an image compression process and an image decompression process for obtaining a still image on image data (several million pixels that are not thinned out) output from the A / D converter 104, and temporarily executes the processes. Is stored in the buffer memory 113. At this time, since the movie shooting mode is maintained,
The still image data stored in the buffer memory 113 after the end of the moving image shooting operation is stored in the still image recording unit 151 of the recording medium 15.
Will be recorded.

When the still image shooting is completed, the system controller 12 restarts the moving image shooting operation (step S).
5 to S2). When the moving image shooting ends, the system controller 12 causes the frame interpolation unit 114 included in the moving image processing unit 110 to function (YES in step S3). The frame interpolation unit 114 performs a determination process of determining the presence or absence of a missing frame according to an instruction (control signal M) from the system controller 12 (Step S6).

More specifically, the frame interpolation unit 114 accesses the photographing frame area 150A of the recording medium 15 and, based on the photographing time data added with the missing frame in the moving image data corresponding to the moving image photographing. It is detected (step S7). As shown in FIG. 2A, moving image data recorded in the shooting frame area 150A by moving image shooting includes a plurality of continuous moving image frames (A1 to A6).
It is composed of Each moving image frame is recorded in the shooting frame area 150A in 1/30 second units. Therefore, if the photographing time interval (T) exceeds 1/30 second between the moving image frames (here, A3 and A4), it means that the moving image frame (X) is missing. The missing frame (X) is generated by interrupted still image shooting during the above-described moving image shooting, and corresponds to a shooting period (corresponding to a shooting time interval (T)). In this way, the frame interpolation unit 114 calculates the number of missing frames from the shooting time interval (T) between the moving image frames, and as shown in FIG.
1, X2) is detected.

Next, the frame interpolation unit 114 uses the moving image data recorded in the photographing frame area 150A to calculate the interpolation frame (I) corresponding to the missing frame (X).
Is performed (step S8). That is, specifically, the frame interpolation unit 114 determines whether the moving image frames (A3, A4) before and after the detected missing frame (X)
By performing the synthesizing process (X = (A3 + A4) / 2) using the image, the interpolation frame (I) is generated (FIG. 2).
(See (B)). Further, the frame interpolation unit 114 adds time data corresponding to the shooting time data of the missing frame (X) to the generated interpolation frame (I) and records the data in the interpolation frame area 150B.

As shown in FIG. 3A, when a plurality of missing frames (X1, X2) are detected, the frame interpolating unit 114 detects the detected missing frames (X1, X2).
By performing the synthesizing process using the moving image frames (B3, B4) before and after 2), the interpolation frames (I1, I2) are obtained.
2) (see FIG. 3B). The synthesizing process for generating the interpolation frame (I1) is performed, for example, as “I1 = (2 ×
B3 + 1 × B4) / 3 ". Further, the synthesizing process for generating the interpolation frame (I2) is performed by, for example, “I2
= (1 × B3 + 2 × B4) / 3 ”.

The method of generating an interpolation frame is as follows.
One of the moving image frames before and after the detected missing frame (X) may be copied as it is and configured as an interpolation frame.

(Modification) FIG. 5 is a block diagram showing a main part of an electronic camera according to a modification of the embodiment. In this modification, the frame interpolation unit 114 uses still image data recorded in the still image recording unit 151 by still image shooting instead of moving image data recorded in the imaging frame area 150A as a method of generating an interpolation frame. I do.

Hereinafter, the missing frame interpolation processing of the present modification will be described with reference to the flowchart of FIG. The configuration of the electronic camera is the same as the configuration of the embodiment shown in FIG. 1 except for the configuration related to the function of the frame interpolation unit 114.

Also in this modified example, the processing procedure shown in the flowchart of FIG. Therefore, the subsequent processing procedure will be described with reference to the flowchart of FIG.

The frame interpolation section 114 executes a determination process for determining the presence or absence of a missing frame in response to an instruction (control signal M) from the system controller 12 (step S10). The frame interpolation unit 114 accesses the shooting frame area 150A of the recording medium 15 and detects a missing frame in the moving image data corresponding to the moving image shooting based on the added shooting time data (step S1).
1). That is, the method of detecting a missing frame is the same as the method of the embodiment.

Next, as shown in FIG. 5, the frame interpolation unit 114 accesses the still image recording unit 151 of the recording medium 15 and acquires the photographing time of the missing frame in the moving image photographing, that is, the photographing time interval of the preceding and succeeding frames. Still image data having a recording time (still image shooting time) corresponding to (T) is searched (step S12). That is, this still image data is data obtained by interrupting still image shooting during moving image shooting.

Here, as described above, the still image data is high quality image data composed of several million pixels compared to the moving image data. Therefore, the frame interpolation unit 11
4 executes a thinning-out process (a process of reducing the pixel density) for adjusting the number of pixels of the searched still image data to the number of pixels of the moving image data (step S13). Then, the frame interpolation unit 114 stores the thinned still image data in the interpolation frame area 150B of the moving image recording unit 150 as an interpolation frame corresponding to the missing frame (step S14).

As described above, according to the embodiment and the modified example, when a still image is interrupted during moving image shooting, even if a missing frame occurs in moving image data due to the still image shooting. In addition, it is possible to compensate for the lack of the moving image frame by generating the interpolation frame after the moving image shooting is completed. That is, when the recorded moving image data is reproduced after the end of the moving image shooting, the interpolation image recorded in the interpolation frame region 150B is added to the moving image frame group extracted from the shooting frame region 150A, so that the reproduction image quality due to the missing frame is reduced. The drop can be compensated. Therefore,
It is possible to obtain a normal reproduction image quality that does not make the user feel uncomfortable. In other words, still image shooting can be executed at a shutter chance during movie shooting, etc.
Deterioration of quality of moving image data obtained by moving image shooting can be suppressed.

[0042]

As described above in detail, according to the present invention, when an electronic camera having both a still image photographing function and a moving image photographing function performs still image photographing during moving image photographing,
It is possible to compensate for a moving image frame missing from a moving image frame group due to still image shooting. Therefore, it is possible to suppress the deterioration of the reproduction quality of the moving image data due to the missing frame.
As a result, it is possible to record moving images and still images of stable quality.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a main part of an electronic camera according to an embodiment of the present invention.

FIG. 2 is an exemplary view for explaining missing frame interpolation processing related to the embodiment;

FIG. 3 is an exemplary view for explaining missing frame interpolation processing related to the embodiment;

FIG. 4 is an exemplary flowchart for explaining the operation of the electronic camera according to the embodiment;

FIG. 5 is an exemplary block diagram showing main parts of an electronic camera according to a modification of the embodiment.

FIG. 6 is a flowchart for explaining a missing frame interpolation process related to the modification.

FIG. 7 is a block diagram showing a main part of a conventional electronic camera.

[Explanation of symbols]

 Reference Signs List 10 photographing system 11 image processing unit 12 system controller 13 display system 14 input operation system 15 recording medium 100 lens 101 imaging device 102 A / D converter 110 moving image processing unit 111 still image processing unit 112: thinning unit 113: buffer memory 130: EVF display control unit 131: finder 140: still image release button 141: moving image start / stop (S / S) button

Claims (7)

[Claims] 1. An electronic camera device having a moving image photographing function and a still image photographing function, wherein at the time of moving image photographing, an image pickup signal of a subject is subjected to image processing to record moving image data comprising a plurality of continuous moving image frames on a recording medium. Moving image processing means for recording the still image, instruction means for instructing the still image shooting, control means for interrupting the still image shooting in response to an input instruction from the instruction means at the time of the moving image shooting, and recording on the recording medium. An electronic camera apparatus comprising: a missing frame interpolating unit that generates a moving image frame that is missing due to the interrupted still image shooting using the moving image data. 2. The control unit has a function of returning to the moving image shooting state after the interrupted still image shooting is completed. 2. The electronic camera device according to claim 1, further comprising a function of generating the missing moving image frame using each moving image frame recorded on the recording medium before and after. 3. The moving picture processing means has a function of recording time information for each moving picture frame on the recording medium, and the missing frame interpolating means relates to the moving picture shooting from the recording medium after the end of the moving picture shooting. 2. The electronic camera device according to claim 1, further comprising means for searching for each moving image frame to be deleted and detecting the missing moving image frame based on the time information for each moving image frame. 4. An electronic camera device having a moving image photographing function and a still image photographing function, wherein at the time of moving image photographing, moving image data composed of a plurality of continuous moving image frames obtained by performing image processing on an image pickup signal of a subject is recorded. Moving image processing means for recording on a medium, still image processing means for recording still image data obtained by performing image processing on the imaging signal at the time of still image shooting on the recording medium, and instruction means for instructing the still image shooting A control unit for interrupting still image shooting in response to an input instruction from the instruction unit during the moving image shooting; and after the interrupted still image shooting is completed, the still image shooting is recorded on the recording medium by the still image shooting. An electronic apparatus comprising: a missing frame interpolating unit configured to generate a moving image frame missing by the still image shooting using the still image data. Camera equipment. 5. The apparatus according to claim 1, wherein said missing frame interpolation means includes means for recording the generated moving image frame as a missing frame of moving image data recorded on said recording medium. Electronic camera device. 6. The moving image processing means has a function of recording time information for each moving image frame on the recording medium, and the still image processing means has a function of recording time information of still image data on the recording medium. The missing frame interpolating means searches for each moving image frame related to the moving image shooting from the recording medium after the end of the moving image shooting, and determines the missing moving image frame based on the time information for each moving image frame. Means for detecting, searching the still image data recorded at the time of still image shooting corresponding to the missing moving image frame from the recording medium,
5. An electronic camera apparatus according to claim 4, further comprising means for generating a missing moving image frame using said still image data. 7. The missing frame interpolating means includes means for executing a process of adjusting a pixel density of the still image data to a pixel density of a moving image frame when a missing moving image frame is generated. The electronic camera device according to claim 4.