JPH0799605A - Video camera system - Google Patents

Abstract

PURPOSE:To automatically retrieve a representative frame from the video signal of a dynamic image recorded by a video camera. CONSTITUTION:The image of an object is photoelectrically converted by an image pickup element 1 and is subjected to white balance processing, AGC processing, etc., by a signal processing circuit 2 and is supplied to a multiplexing circuit 6 as a video signal. The set color temperature of white balance, the gain of AGC, the speed of camera shake detected from the picked-up image, turning-on/off of electronic zoom the magnification of electronic zoom, etc., are supplied to an operation information acquiring circuit 5 as operation information for signal processing. Information related to photographer's operation of a switch 3 and the signal detected by a sensor circuit 4 are supplied to the operation information acquiring circuit 5. The representative frame is retrieved based on operation information recorded in this manner.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a video signal of a moving image,
The present invention relates to a video camera system which records on a medium such as a tape, a disk or a semiconductor memory, and extracts and outputs a representative image representing the content of a moving image from the images recorded on the medium.

[0002]

2. Description of the Related Art FIG. 16 shows the structure of a conventional video camera system disclosed in Japanese Patent Laid-Open No. 4-220090. 101 is a video signal input terminal, 102 is an electronic viewfinder, 103 is a recorder section, and 104 is External video output terminal, 105 is a character generator, 106 is a recording start trigger terminal, and 107 is a timer circuit. FIG.
In, the character generator circuit 105 superimposes a character pattern on the video signal and outputs it to SW1. The timer circuit 107 sets the SW1 to the B1 side for a predetermined time from the timing of the recording start trigger, and then switches the SW1 to the A1 side. By this, EV
F102, recorder 103 and external video output terminal 1
The signal to be displayed, recorded and output by 04 is a video signal obtained by superimposing the character pattern for a predetermined time from the timing of the recording start trigger, and thereafter becomes a video signal without superimposing.

In the conventional video camera system disclosed in Japanese Unexamined Patent Publication No. Hei 2-214271, a recorded image is searched by writing a reduced image of the captured image in the image memory each time the recording start trigger button is pressed. Is possible.

In the conventional magnetic recording / reproducing apparatus disclosed in Japanese Patent Application Laid-Open No. 1-246973, a video signal is recorded by superimposing and recording a data signal such as time information during a vertical blanking period of the video signal. It isolates and extracts only the data signal without any troubles to the user, and makes it available for retrieval, editing, etc.

[0005]

However, it is difficult to retrieve a typical frame representing the content of a moving image from the images recorded by the video camera system having the above configuration. For example, in order to search for a frame in which a specific character pattern is superimposed from an image recorded by the video camera system disclosed in Japanese Patent Laid-Open No. 4-220090, the character pattern is separated from the video signal and the separated characters are separated. It is necessary to match the pattern with the character pattern to be searched, which is difficult to realize.

In the image recorded by the video camera system of Japanese Patent Laid-Open No. 2-214271, only the image at the moment when the recording start trigger button is pressed can be retrieved, and that moment is not necessarily the most representative frame. The search accuracy of the representative frame is low.

Further, the data signal recorded in the magnetic recording / reproducing apparatus of Japanese Patent Laid-Open No. 1-246973 is not shown except for the time and the frame number, and the representative frame cannot be automatically searched by only those signals.

In view of the above point, the present invention aims to provide a video camera system capable of automatically searching a typical frame or field representing the content of a recorded moving image.

[0009]

SUMMARY OF THE INVENTION A video camera system of the present invention comprises an image pickup means for taking an image of a subject and generating a video signal of a moving image, and a focal length and an aperture opening at the time of image pickup by the image pickup means. Operation information acquisition means for generating camera operation information; recording means for recording a recording signal obtained by multiplexing a video signal from the image pickup means and camera operation information from the operation information acquisition means on a recording medium; Reproducing means for reproducing a medium and outputting a video signal of a moving image and camera operation information, and indicating whether or not the video signal of each frame or field and camera operation information output by the reproducing means satisfy a specific condition. An image extracting means for outputting an extraction signal; a reducing means for reducing the video signal of the moving image output by the reproducing means to output image data of a reduced screen; and a reducing means from the reducing means. A multi-screen generation unit configured to combine and output the image data corresponding to the extraction signal from the image extraction unit out of the image data of the reduced screens of a number to form and output multi-screen image data of one frame or field. .

[0010]

With the above-described structure, the video camera system of the present invention extracts a plurality of frames or fields based on the operation information of the camera reproduced together with the video signal, and uses a reduced image of the extracted frames or fields. Print the screen.

[0011]

1 shows the configuration of a video camera system according to a first embodiment of the present invention. In FIG. 1, 60 is a recording unit, 61 is a recording medium, 62 is a multi-screen output unit, 6
3 is a video printer. In this video camera system, the video signal of the moving image captured by the recording unit 60 is recorded in the recording medium 61. The multi-screen output unit 62 extracts a frame satisfying a specific condition from the reproduced image from the recording medium 61, and outputs a multi-screen video signal composed of reduced images of a plurality of extracted frames. The video signal of the multi-screen is printed by the video printer 63 to obtain a print image showing the contents of the recording medium 61.

FIG. 2 is a block diagram of the recording unit of the video camera system according to the first embodiment. In FIG.
1 is an image sensor, 2 is a signal processing circuit, 3 is an operation switch,
Reference numeral 4 is a sensor circuit, 5 is an operation information acquisition circuit, 6 is a multiplexing circuit, 7 is a recording circuit, and 61 is a recording medium. The image of the subject is photoelectrically converted by the image sensor 1, subjected to white balance processing, AGC (Auto Gain Control) processing, etc. in the signal processing circuit 2, and then supplied to the multiplexing circuit 6 as a video signal. In signal processing, the color temperature of the white balance set,
The AGC gain, camera shake speed of the camera detected from the captured image, electronic zoom on / off, electronic zoom magnification, and the like are supplied to the operation information acquisition circuit 5 as operation information at the time of signal processing. Information about the operation of the switch 3 by the photographer and the signal detected by the sensor circuit 4 are also supplied to the operation information acquisition circuit 5. Operation information by the photographer includes exposure mode (automatic, gain priority, shutter speed priority, aperture priority, manual), shutter speed, white balance mode (automatic, hold, one push, preset), on / off of image stabilization, and Includes focus control mode. The sensor information includes the aperture of the diaphragm, the focal length, and the focusing distance.

FIG. 3 is a block diagram of the operation information acquisition circuit 5 of the video camera system of the first embodiment. In FIG. 3, reference numeral 9 is a first shift register, 10 is a second shift register, 11 is a third shift register, 12 is a serial clock generator, 14 is a frame counter, and 15 is a fourth shift register. The operation information acquisition circuit 5 is
With the configuration of FIG. 3, the operation information by the photographer, the operation information at the time of signal processing, the sensor information, and the frame number are serially converted and output as operation information. Details of this operation will be described below with reference to FIG.

FIG. 4 is a timing chart showing the operation of the operation information acquisition circuit 5 and the multiplexing circuit 6 of the first embodiment. The field synchronization signal (b) is "0" in the vertical blanking period of the video signal (a), and "1" in other periods.
Is. The frame counter 14 outputs a frame number that is incremented by 1 for each frame. First, second, third and fourth shift registers 9, 10, 11 and 15
Is a parallel input serial output register, and while the field synchronization signal is "1", the operation information by the photographer, the operation information at the time of signal processing, the sensor information, and the frame number are input in parallel. During the period when the field synchronization signal is "0", that is, during the vertical blanking period of the video signal, the operation information (c) is serially output in synchronization with the serial clock output from the serial clock generator 12. The four shift registers are the first, second, third,
Since they are connected in the fourth order, the operation information includes operation information by the photographer, operation information at the time of signal processing, sensor information,
Serial output is performed in the order of frame numbers.

FIG. 5 is a block diagram of the multiplexing circuit 6 of the first embodiment, and 13 is a multiplexer. A video signal is output to the multiplexer 13 while the field synchronization signal is "1", and operation information is output while the field synchronization signal is "0". As a result, the multiplexing circuit 6 outputs the signal (d) in which the operation information is multiplexed in the vertical blanking period of the video signal. The recording circuit 7 modulates the multiplexed signal and records it on the recording medium 61.

Table 1 shows the contents of the operation information of the photographer set in the first shift register 9 of the video camera system of the first embodiment.

[0017]

[Table 1]

As described above, the operation information by the photographer includes the exposure mode, shutter speed, white balance mode,
It includes on / off of image stabilization and focus control mode. The exposure mode is represented by 4-bit data as shown in (a) of (Table 1) and indicates which exposure mode is automatic, gain priority, shutter speed priority, aperture priority, or manual exposure mode. The shutter speed is shown as a multiple of the horizontal scanning period (about 1/15750 seconds in the NTSC system),
As in (b) of (Table 1), it is indicated by a 16-bit integer c. Regarding the white balance mode, as shown in (c) of (Table 1), it is indicated by 3-bit data, and automatic, hold, one push (set so that the average of all screens is achromatic),
Indicates which mode of preset (manually set outdoors, indoors, etc.). Turning on / off of camera shake correction is indicated by 1-bit data as shown in (d) of (Table 1). Regarding the focusing control mode, 1-bit data indicates automatic / manual as shown in (e) of (Table 1).

Table 2 shows the contents of operation information at the time of signal processing set in the second shift register 10 of the video camera system of the first embodiment.

[0020]

[Table 2]

As described above, the operation information at the time of signal processing includes the white balance setting color temperature, the AGC gain, the camera shake speed of the camera detected from the captured image, the electronic zoom on / off, and the electronic zoom magnification. including. Regarding the white balance setting color temperature, as in (a) of (Table 2),
It is represented by 4-bit data, and indicates whether the color temperature is set according to the light source of candle, incandescent lamp, low color temperature fluorescent lamp, high color temperature fluorescent lamp, outdoor fine weather, or outdoor cloudy weather.
The gain of AGC is indicated by a multiple of 3, and is indicated by an integer b in the expression of gain = −3 + b × 3, as in (b) of (Table 2). The size of the camera shake detected from the captured image is represented by two integers indicating the size of the camera shake in the horizontal and vertical directions per field, and as shown in (c) of Table 2, horizontal x pixels / field. , Vertical y lines / fields. For turning on / off the electronic zoom,
It is indicated by 1-bit data as shown in (d) of (Table 2).
The electronic zoom magnification is indicated by a binary fixed point representation z composed of an integer part 2 bits and a decimal part 5 bits, as shown in (e) of (Table 2).

Table 3 shows the contents of the sensor information set in the third shift register 11 of the video camera system of the first embodiment.

[0023]

[Table 3]

As described above, the sensor information includes the aperture of the diaphragm, the focal length, and the focusing distance. The aperture of the diaphragm is indicated by an integer a when the F value is expressed by 2 ^{a / 8} , as in (a) of (Table 3). For focal length,
As in (b) of (Table 3), the focal length of a 35 mm film camera having the same horizontal angle of view as the captured image is shown by two integers e and f expressed by e × 10 ^f [mm]. Regarding the focusing distance, the distance from the in-focus subject to the camera is
It is represented by g × 10 ^h [cm] as in (c) of (Table 3), and is represented by two integers g and h.

As described above, the recording unit 60 of the video camera system of this embodiment records the signal obtained by multiplexing the video signal and the operation information by the multiplexing circuit 6 on the recording medium 61 by the recording circuit 7. In this recording signal, the video signal and the operation signal are in different areas in terms of time, and the video signal and the operation signal can be easily separated.

FIG. 6 is a block diagram of the multi-screen output section 62 of the video camera system according to the first embodiment. In FIG. 6, 61 is a recording medium, 17 is a reproducing circuit,
Reference numeral 18 is a circuit for separating a video signal from operation information, 19 is a frame memory for reproduced video, 64 is a representative frame extraction circuit,
Reference numeral 21 is a reduction circuit, 22 is a frame number memory, and 65 is a multi-screen frame memory. The signal reproduced and demodulated by the reproducing circuit 17 is a signal in which the video signal and the operation information are time-axis-multiplexed, like the multiplexed signal shown in FIG. The separation circuit 18 separates the multiplexed signal into a reproduction video signal and operation information. Playback frame memory 19
Causes the reproduced video signal to be delayed by the time of one frame.
The representative frame extracting means 64 determines whether the frame satisfies a specific condition during this delay and outputs a memory write control pulse.

FIG. 7 is a block diagram of the representative frame extracting means 64 of the first embodiment. In FIG. 7, 27 is a circuit for detecting the end of the change in the F value, 28 is a circuit for detecting the end of the change in the white balance setting color temperature, 29 is a circuit for detecting the end of panning, and 30 is the end of zooming. A detection circuit, 31 is a weighted sum circuit, 32 is a threshold processing circuit, and 33 is an AND gate. Detection circuits 27, 28,
Reference numerals 29 and 30 show the aperture color and the set color temperature of the white balance, the size of the camera shake, and the focal length from the operation information, and after those values continuously increase or decrease by a certain number of frames or more. , When there is no continuous change for a fixed number of frames, the detection pulse = "1" is output. When the condition is not satisfied, these detection circuits 27, 28, 29 and 30 detect pulse = “0”.
Is output. The weighted sum circuit 31 weights and adds these four detection pulses. For example, the weight of the detection pulse output from the detection circuits 27 and 28 is 1, and the detection circuit 2
The weight of the detection pulse output from 9 and 30 is 2.
The threshold value processing circuit 32 outputs "1" when the weighted sum output by the weighted sum circuit 31 exceeds a certain threshold value, and outputs "0" when the weighted sum is less than or equal to the threshold value. As a result, when the end of panning or zooming is detected, the threshold processing circuit 32
Outputs "1". Alternatively, the threshold value processing circuit 32 outputs "1" when the end of the change in the white balance setting color temperature is also detected at the same time as the end of the change in the F value. The output value of the threshold processing circuit 32 is the frame value of the reproduced video frame memory 19
Is held while outputting the frame corresponding to the operation information. The AND gate 33 has a threshold processing circuit 32
A memory write control pulse is output which is coincident with the field sync signal during a frame outputting "1" and is "0" during another frame.

FIG. 8 is a block diagram of the reduction circuit 21 and the multi-screen frame memory 65 of the first embodiment. In FIG. 8, 34 is a horizontal low-pass filter, 35 is a horizontal sub-sampling circuit, 36 is a vertical low-pass filter, 37 is a vertical sub-sampling circuit, 38 is a frame memory, 39 is a frame memory write control unit, and 40 is a frame. It is a memory read control unit.
The low-pass filters 34 and 36 prevent the high frequency components of the reproduced video signal from folding back to low frequencies by the thinning processing in the sub-sampling circuits 35 and 37. For example, when the horizontal and vertical directions are both reduced to 1/2, the low-pass filters 34 and 36 limit the frequency band of the video signal to 1/2 of the reproduced video signal, and the sub-sampling circuits 35 and 37. , One pixel every two pixels in the horizontal direction and one line every two lines in the vertical direction. By this operation, the reduction circuit 21 reduces the video signals thinned out in the horizontal and vertical directions,
It is supplied to the frame memory 38.

The frame memory writing control unit 39 writes the reduced video signal in the frame memory 38 in accordance with the memory writing control pulse output by the representative frame extracting means 64. Reduced video signal is halved horizontally and vertically
If the image is a reduced image, the frame memory 38 becomes full by writing four reduced images. The read control unit 40 of the frame memory controls the read of the multi-screen stored in the frame memory 38 in synchronization with the field synchronization signal.

As described above, the multi-screen output unit 62 of the video camera system of this embodiment is the recording medium 61.
A video signal of a multi-screen composed of frames satisfying a specific condition is obtained from the reproduction signal of. By printing the video signal of the multi-screen by the video printer 63 with the configuration of FIG. 1, it is possible to know the outline of the video of the moving image recorded in the recording medium 61.

In the present embodiment, the multi-screen video signal output by the multi-screen output unit 62 is printed by the video printer 63, but it may be displayed on a display device such as a television.

Further, in the present embodiment, the operation information acquisition circuit 5
Outputs the operation information in the order of the operation information by the photographer, the operation information at the time of signal processing, the sensor information, and the frame number, but the output order is not limited to this order. The order of the operation information output by the operation information acquisition circuit 5 is, for example, the aperture information, the exposure mode, the AGC gain, and the white balance mode.
The operation information at the time of signal treatment may be mixed.

The contents of the operation information output by the operation information acquisition circuit 5 are not limited to the expressions shown in (Table 1), (Table 2) and (Table 3). For example, the white balance setting color temperature in (a) of (Table 2) is calculated in units of deca red (d = 10).
⁵ / T, d may be an integer, and T may be expressed in Kelvin unit color temperature). In addition, the size of camera shake in (c) of (Table 2) is represented by the size of camera shake per horizontal and vertical field, but can also be represented by the size of camera shake per frame or second. Alternatively, it may be represented by the direction (angle with respect to the horizontal direction) of the camera shake and the size in that direction.

Further, in the present embodiment, the representative frame extracting means 20 is constituted by a circuit for detecting the F value, the set color temperature, the panning and the end of zooming, but the constitution of the extracting means 20 is not limited to this. It is not something that will be done. The representative frame extracting means 20 may have another configuration for determining the representative frame from the operation information, for example, a circuit that detects a change in the exposure mode may be used, or a circuit that detects a change in the focusing distance. May be used.

Further, although the extracting means 20 extracts the representative frame in the present embodiment, the important field may be extracted by the same structure as the extracting means 20. In this case, the memory 19 may be a field memory instead of a frame memory.

FIG. 9 shows the arrangement of a video camera system according to the second embodiment of the present invention. In FIG. 9, 60 is a recording unit, 61 is a recording medium, 66 is a search data creation unit,
67 is a reproduction image selection unit. In this video camera system, the video signal of the moving image captured by the recording unit 60 is recorded in the recording medium 61. The search data creation unit 66 extracts a frame satisfying a specific condition from the reproduced image from the recording medium 61, and the frame number of the extracted frame,
A video signal of a multi-screen composed of extraction frames is multiplexed and recorded. The reproduction image selection unit 67 reproduces and displays the moving image including the frame selected by the user. In the present embodiment, the same recording unit as the recording unit 60 of the first embodiment is used, and by using the search data creation unit 66 and the reproduction image selection unit 67, a moving image including a frame selected by the user is displayed. Enable display.

FIG. 10 is a block diagram of the search data creation unit 66 of the video camera system according to the second embodiment. The configuration of the search data creation unit 66 of the present embodiment is the first
6 is different from the configuration of the multi-screen output unit 62 of the above embodiment in that the representative frame extracting means 20 outputs the frame number and the multiplexing circuit 24 multiplexes the multi-screen video signal and the frame number. The recording circuit 25 records the data on the recording medium 61.

FIG. 11 is a block diagram of the representative frame extracting means 20 of the second embodiment. The representative frame extracting means 20 of this embodiment has a configuration in which a frame number register 26 is added to the representative frame extracting means 64 (FIG. 7) of the first embodiment, and at the same time as the memory write control pulse,
It also outputs the frame number.

FIG. 12 is a block diagram of the frame number memory 22 of the second embodiment. In FIG. 12, 4
1, 42, 43 and 44 are first, second, third and fourth registers, 45 is a 1/2 frequency dividing circuit, 46 is a shift register, 47 is a serial clock generating circuit, and 48 is an AND gate. . The frame number memory 22 is shown in FIG.
With the configuration of 2, the frame number is serially converted and output. Details of this operation will be described below with reference to FIG.

FIG. 13 is a timing chart showing the operations of the frame number memory 22 and the multiplexing circuit 24 of the second embodiment. The timing chart of FIG. 13 shows the operation when the representative frame extracting means 20 extracts the frames of frame numbers 1, 2, 3 and 4 as the representative frames for the sake of simplicity. Actually, in the operation of the representative frame extracting means 20 described above, consecutive frames are not extracted as the representative frame.

The operation of the frame number memory 22 of the second embodiment will be described below with reference to FIGS. The 1/2 frequency dividing circuit 45 frequency-divides the field synchronization signal ((c) in FIG. 13) and outputs a pulse having a frame period. The AND gate 48 is a memory write control pulse from the representative frame extracting means 20 ((b) of FIG. 13).
And the logical product ((d) of FIG. 13) of the pulse of the frame period output from the frequency dividing circuit 45, the registers 41, 42, 4
To 3 and 44. The frame number is supplied to the first register 41. The frame number of the representative frame is loaded into the first register 41 in synchronization with the pulse output from the AND gate 48 in the representative frame. The shift register 46 has a field synchronization signal of "1".
The outputs of the registers 41, 42, 43 and 44 which are parallel-loaded during
Serial output ((e) in FIG. 13).

FIG. 14 shows the multiplexing circuit 2 of the second embodiment.
In the block diagram of 4, 49 is a multiplexer. The multiplexer 49 selects the multi-screen video signal ((f) in FIG. 13) while the field synchronization signal is "1", and the representative frame output from the shift register 46 while the field synchronization signal is "0". The number ((e) in FIG. 13) is selected and the multiplexed signal ((g) in FIG. 13) is output.

The recording circuit 25 records the multiplex signal on the recording medium 61 in accordance with the memory write end pulse ((h) in FIG. 13) output from the multi-screen frame memory (recording signal in (i) in FIG. 13). Shown).

As described above, in the search data creating section 66 of the video camera system of this embodiment, the multiplexing circuit 24 is used.
The recording circuit 25 records a signal obtained by multiplexing the multi-screen and the number of the representative frame on the recording medium 61.

FIG. 12 shows the configuration of the reproduction image selection section 67 of the video camera system according to the embodiment of the present invention. Figure 1
In FIG. 2, 61 is a recording medium, 51 is a reproducing circuit, 52 is a circuit for separating a video signal and data, 53 is a video display means, 54 is a multi-screen selection means, and 55 is a data memory. The signal recorded on the recording medium 61 is a signal in which a video signal of a captured moving image and operation information of the camera at the time of capturing are multiplexed, and a plurality of representative frames are reduced to 1
This is a signal in which a multi-screen constituting the screen and the number of the representative frame are multiplexed. The reproducing circuit 51 first reproduces the signal in which the multi-screen and the frame number are multiplexed. The separation circuit 52 separates the multi-screen video signal and the frame number, the multi-screen video signal is displayed by the display means 53, and the frame number is stored in the data memory 55.
A person who uses the video camera system of the present embodiment selects a frame to be reproduced from the multi-screen displayed on the display means 53, and the data memory 55 stores the frame number selected by the user in the reproducing circuit 51. Output. The reproduction circuit 51 includes a frame having the number input from the data memory 55 and reproduces a specific number of frames before and after the frame. The separation circuit 52 separates the reproduced signal into a video signal of a moving image and operation information, and supplies only the video signal to the display means 53.

As described above, according to the video camera system of the present embodiment, it is possible to reproduce and display the moving image including the frame selected by the user from the multi-screen.

In this embodiment, the recording circuit 25 records a signal in which a multi-screen and a representative frame number are multiplexed, and the reproducing circuit 17 reproduces a multiplexed signal of a video signal and operation information. Is the same medium 61, but the recording circuit 25 may record on a medium different from the medium reproduced by the reproducing circuit 17. For example, the reproducing circuit 17 may reproduce from the magnetic tape, and the recording circuit 25 may record in the semiconductor memory integrated with the magnetic tape. In this case, two reproducing circuits are required, one for the magnetic tape and one for the semiconductor memory, but the number of the separating circuit 52 may be one as in the present embodiment.
The other portions operate in the same manner as in the present embodiment, so that the moving image including the frame selected by the user can be reproduced and displayed.

Further, in this embodiment, the frame number selected by the user is supplied to the reproducing circuit, but the selected frame number may be recorded on the medium 61 or another medium. In this case, based on the numbers of the plurality of frames selected by the user, the moving images including those frames can be sequentially reproduced. Further, by recording the moving images sequentially reproduced in this manner, the captured image can be edited according to the user's instruction.

[0049]

As described above, according to the video camera system of the present invention, the video signal of the captured moving image and the operation information of the camera are multiplexed and recorded. A typical frame or field can be automatically extracted from the reproduction signal to generate a multi-screen composed of a plurality of reduced frames of the typical frame or field. With this multi-screen, the content of the recorded moving image can be known at a glance.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a video camera system according to a first embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of a recording unit of the video camera system according to the embodiment of the present invention.

FIG. 3 is a block diagram showing an internal configuration example of an operation information acquisition circuit 5 of the same embodiment.

FIG. 4 is a timing chart showing operations of an operation information acquisition circuit 5 and a multiplexing circuit 6 of the same embodiment.

FIG. 5 is a block diagram showing an internal configuration example of a multiplexing circuit 6 of the same embodiment.

FIG. 6 is a block diagram showing a configuration of a multi-screen output unit 62 according to the same embodiment.

FIG. 7 is a block diagram showing an internal configuration example of a representative frame extracting means 64 of the same embodiment.

FIG. 8 is a block diagram showing an internal configuration example of a reduction circuit 21 and a multi-screen frame memory 65 of the same embodiment.

FIG. 9 is a configuration diagram of a video camera system according to a second embodiment of the present invention.

FIG. 10 is a block diagram showing a configuration of a search data creation unit 66 of the video camera system in the embodiment.

FIG. 11 is a block diagram showing an internal configuration example of a representative frame extracting means 20 of the same embodiment.

FIG. 12 is a block diagram showing an internal configuration example of a frame number memory 22 of the embodiment.

FIG. 13 is a timing chart showing operations of the frame number memory 22 and the multiplexing circuit 24 of the embodiment.

FIG. 14 is a block diagram showing an internal configuration example of a multiplexing circuit 24 of the same embodiment.

FIG. 15 is a configuration diagram of a reproduction image selection unit 67 of the video camera system in the embodiment.

FIG. 16 is a block diagram showing the configuration of a conventional video camera system.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Image sensor 5 Operation information acquisition circuit 6,24 Multiplexing circuit 7 Recording circuit 17 Reproduction circuit 20, 64 Representative frame extraction means 21 Reduction circuit 23,65 Multi-screen frame memory 54 Multi-screen selection means 60 Recording section 61 Recording Media 62 Multi-screen output unit 66 Search data creation unit 67 Playback image selection unit

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical indication H04N 5/91 7734-5C H04N 5/91 L 7734-5CM

Claims (14)

[Claims] 1. An image pickup means for photographing a subject and generating a video signal of a moving image, and an operation information acquisition means for generating camera operation information such as a focal length and an aperture opening at the time of photographing by the image pickup means. Recording means for recording on a recording medium a recording signal in which a video signal from the image pickup means and camera operation information from the operation information acquisition means are recorded, and a video signal of a moving image and a camera for reproducing the recording medium. Reproduction means for outputting operation information; image extraction means for outputting an extraction signal indicating whether or not the video signal of each frame or field and the camera operation information output by the reproduction means satisfy a specific condition; Reducing means for reducing the video signal of the moving image output by the means to output image data of the reduced screen; and a plurality of reduced screen image data from the reducing means. A video camera system comprising: a multi-screen generation unit configured to combine image data corresponding to an extraction signal from the output unit to form and output multi-screen image data of one frame or field. 2. The video camera system according to claim 1, further comprising means for printing multi-screen image data output by the multi-screen generation means on photographic paper or the like. 3. The recording means converts the aperture opening of the camera operation information into an integer a represented by F value = 2 ^{a / 8} , and represents the aperture opening with the integer a to display a moving image. The video camera system according to claim 1, wherein the video camera system records the multiplexed signal. 4. The recording means sets A in the camera operation information.
2. The video camera system according to claim 1, wherein the GC gain is converted into an integer b represented by −3 + b × 3 [dB], the AGC gain is represented by the integer b, and the video signal of the moving image is multiplexed and recorded. 5. The recording means is a system of the camera operation information.
Cutter speed is c × T _H[Sec] (T_HIs the horizontal scanning period)
Is converted to an integer c and the shutter speed is represented by an integer c.
The video signal of a moving image is multiplexed and recorded.
Video camera system. 6. The recording means sets the white balance setting color temperature in the camera operation information in units of decamed red (d = 10 ⁵ /
T: T is converted into an integer d represented by an absolute temperature [color temperature represented by Kelvin], and the set color temperature of white balance is represented by the integer d, which is multiplexed and recorded on a video signal of a moving image. The video camera system according to item 1. 7. A video image of a moving image, wherein the recording means converts the focal length of the camera operation information into a focal length of a 35 mm film camera having a horizontal angle of view equal to that of the captured image and expressing the focal length by the converted focal length. The video camera system according to claim 1, wherein the video camera system records the multiplexed signal. 8. The recording means converts the focal length of the camera operation information into a 35 mm film camera focal length having the same horizontal angle of view as the captured image, and the converted focal length is e × 10 5.
^2. The video camera system according to claim 1, further converting to integers e and f represented by ^f [mm], expressing focal lengths by the integers e and f, and multiplexing and recording the video signals of a moving image. 9. The recording means converts the focusing distance in the camera operation information into integers g and h represented by g × 10 ^h [cm], and expressing the focusing distance by the integers g and h, The video camera system according to claim 1, wherein the video signal is multiplexed with a video signal of a moving image and recorded. 10. The recording means includes a signal indicating ON / OFF of camera shake correction in the camera operation information, and the signal indicating ON / OFF of camera shake correction is multiplexed and recorded on a video signal of a moving image. The described video camera system. 11. The recording device according to claim 1, wherein the recording means includes a signal representing the size of the camera shake in the camera operation information, and the signal representing the size of the camera shake is multiplexed with the video signal of the moving image and recorded. Video camera system. 12. The recording means converts the signal representing the magnitude of camera shake in the camera operation information into the amount of camera shake in the horizontal and vertical directions per frame, field or second. 2. The video camera system according to claim 1, wherein the size of the camera shake is represented by the converted size of the camera shake and is recorded in a multiplexed manner on a video signal of a moving image. 13. The recording means converts the signal representing the size of the camera shake in the camera operation information into the size of the camera shake and the direction of the camera shake per one frame, one field or one second. 2. The video camera system according to claim 1, wherein the size of the hand shake and the size of the hand shake are represented by the direction of the hand shake and are multiplexed and recorded in the video signal of the moving image. 14. An image pickup means for photographing a subject and generating a video signal of a moving image, and an operation information acquisition means for generating camera operation information such as a focal length and a diaphragm opening at the time of photographing by the image pickup means. Recording means for recording on a recording medium a recording signal in which a video signal of a moving image from the image capturing means and camera operation information from the operation information acquiring means are recorded, and a video image of a moving image reproduced from the recording medium. Reproduction means for outputting a signal and camera operation information; image data of a plurality of frames or fields satisfying a specific condition based on the video signal of the moving image and camera operation information; and a recording medium of the extracted frames or fields. Image extracting means for outputting the upper position, and image data for a reduced screen by reducing the image data of the frame or field output by the image extracting means. A reduction unit for outputting and image data corresponding to an extraction signal from the image extraction unit out of a plurality of reduced screen image data from the reduction unit are combined to form one-frame or field multi-screen image data. A multi-screen generating unit that outputs the multi-screen, the multi-screen image data output by the multi-screen generating unit, and the position on the recording medium corresponding to the reduced screen that configures the multi-screen as a group, A multi-screen recording means for recording on a recording medium or a medium integrated with the recording medium at the time of image capturing; a position on the recording medium corresponding to a reduced screen constituting the multi-screen image data and the multi-screen by reproducing the medium. Multi-screen playback means for playing back as a set, and multi-screen display means for displaying multi-screen image data output by the multi-screen playback means An image selection unit that outputs a selection signal indicating which reduced screen the user has selected from the multi-screens displayed by the multi-screen display unit, a selection signal from the image selection unit, and a multi-screen A selected image reproducing means for reproducing a video signal of a moving image corresponding to the reduced screen selected by the user based on the position on the recording medium corresponding to each reduced screen from the reproducing means. Video camera system.