Motion video signal processing for recording or reproducing – Local trick play processing – With randomly accessible medium
Reexamination Certificate
1996-06-19
2002-09-17
Chevalier, Robert (Department: 2615)
Motion video signal processing for recording or reproducing
Local trick play processing
With randomly accessible medium
C386S349000
Reexamination Certificate
active
06453120
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an image processing apparatus including an image pickup system and compression processing means for compressing a photographic image obtained from the image pickup system.
2. Description of the Related Art
FIG. 1
is a schematic block diagram showing the arrangement of a conventional example in which a video camera is integrated with a digital video tape recorder for digitally recording a video signal.
In the example shown in
FIG. 1
, an image pickup device
10
is provided with a complementary color filter and performs pseudo-interlaced reading of electric charge stored by field storage. Specifically, as shown in
FIG. 2
, the image pickup device
10
is provided with a mosaic color filter made up of filter elements: white (W), cyan (Cy), yellow (Ye) and green (G). The image pickup device
10
outputs the added values of two adjacent upper and lower lines, and a luminance signal processing circuit
12
adds together the values of two adjacent pixels contained in the output of the image pickup device
10
, thereby forming a luminance signal. A chrominance signal processing circuit
14
obtains differences between the values of the two adjacent pixels, thereby forming color-difference signals.
More specifically, a luminance signal Yn obtained from a line #n and a luminance signal Yn+1 obtained from a line #(n+1) are as follows:
Yn=
(
W+Cy
)+(
G+Ye
)
Yn+
1=(
W+Ye
)+(
G+Cy
)
and the associated chrominance signals Cn and Cn+1 are as follows:
Cn=
(
W+Cy
)−(
G+Ye
)
Cn+
1=(
W+Ye
)−(
G+Cy
)
If the characteristic of each filter element W is equal to the sum of R (red), G (green) and B (blue), i.e., R+G+B; the characteristic of each filter element Cy is equal to B+G; and the characteristic of each filter element Ye is equal to Ye=R+G, the following equations are obtained:
Yn=Yn+
1=2
R+
4
G+
2
B
Cn=
2(
B−G
)
Cn+
1=2(
R−G
)
As shown in
FIG. 2
, the line numbers of adjacent upper and lower lines to be added together are made to differ between an even field and an odd field, whereby an interlaced signal is obtained. To perform this addition, the image pickup device
10
needs to be provided with a photoelectric conversion element having lines the number of which is equivalent to the number of lines per frame (in the NTSC system, 525 lines). In the case of the NTSC system, in a line Lm of the image pickup device
10
shown in
FIG. 1
, m is 525.
A luminance signal Y formed by the luminance signal processing circuit
12
and a chrominance signal C formed by the chrominance signal processing circuit
14
are stored in an image memory
16
under the control of a memory control circuit
18
. When image data for one frame are stored in the image memory
16
, a motion detecting circuit
20
discriminates between a moving image portion and a still image portion. An image compressing circuit
22
compresses the image data supplied from the image memory
16
, by using correlations present in the image. At this time, the image compressing circuit
22
adaptively switches compression algorithms between the still image portion and the moving image portion in accordance with the detection result provided by the motion detecting circuit
20
.
The compressed image data is applied to an image recording device
24
, and the image recording device
24
records the compressed image data on a recording medium.
A system control circuit
26
controls the entire arrangement in accordance with the operation of a key operation device
28
.
In the above-described arrangement, pseudo-interlaced field images are compressed and recorded on the recording medium.
In the conventional example in which compression processing is performed after field images are combined into a frame image, there is the problem that if field images of a fast moving subject are combined into a frame image, the resultant image may be blurred as shown in FIGS.
3
(
a
) to
3
(
c
). FIG.
3
(
a
) shows an odd field image, FIG.
3
(
b
) shows the succeeding even field image, and FIG.
3
(
c
) shows the frame image obtained by combining the odd and even field images.
Compression of an image utilizes correlations which appear in the image in the space and time-axis directions thereof. In general, a frame picture the vertical line-to-line distance of which is smaller than that of a field picture contains higher correlations. For this reason, as described above, the conventional example adopts the compression method of adaptively switching compression algorithms between a still image portion and a moving image portion in a frame image.
As a result, the conventional example necessarily needs a motion detecting circuit for detecting a still image portion and a moving image portion, and, in addition, a substantially high detection accuracy is needed. This problem makes it difficult to reduce the size of the circuit.
As is known to those skilled in the art, since a conventional camera-integrated type of VTR does not conform to a plurality of television standards, a plurality of camera-integrated types of VTRs must be prepared and selectively used according to individual purposes. With the diversification of broadcasting systems, it becomes far more necessary to exchange program software tapes between different nations or to produce software conforming to multiple broadcasting systems. However, if a plurality of broadcasting systems are to be handled, a plurality of existing VTRs are needed, so that practical inconveniences will be encountered. For this reason, it has been desired to provide a VTR unit capable of conforming to multiple broadcasting systems.
As is also known to those skilled in the art, systems for recording and reproducing a digitized video signal are individually designed according to necessary image qualities or recordable/reproducible data rates. However, if system designs differ in coding sampling frequency which is a primary parameter for determining image quality, when one system is connected to another video system, various problems occur.
Such conventional systems which are separately designed according to individual required image qualities have the problem that it is impossible to readily exchange image data between systems via media.
SUMMARY OF THE INVENTION
It is, therefore, an object of the present invention to provide an image processing apparatus capable of solving the above-described problems.
To achieve the above object, in accordance with one aspect of the present invention, there is provided an image processing apparatus which comprises image pickup means having a plurality of photographic modes, compression processing means for performing compression processing of an image pickup signal outputted from the image pickup means, the compression means having a plurality of compression modes, and selecting means for selecting one of the compression modes of the compression processing means in accordance with a selected one of the photographic modes of the image pickup means.
According to the above arrangement, it is possible to fully utilize the performance of the compression processing means, so that it is possible to realize a good image quality and a high compression ratio.
Another object of the present invention is to provide a video recording apparatus, a video reproducing apparatus and a video recording and reproducing apparatus, such as a multimode-capable camera-integrated type VTR capable of effecting camera photography, compression signal processing and video recording according to a plurality of television standards.
To achieve the above object, in accordance with another aspect of the present invention, there is provided a video recording apparatus which comprises image pickup means capable of conforming to a plurality of television standards, recording means for compressing data outputted from the image pickup means at
Kashida Motokazu
Kawai Kenji
Takahashi Koji
Canon Kabushiki Kaisha
Chevalier Robert
Robin, Blecker & Dale
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