JPH11239294A - Video camera - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a video camera capable of suppressing generation of noise due to the S/N ratio of photographing images and the false signals of foldover components by the decline of the sampling rate of picture elements in the color filter of a CCD and compensating the resolution and sharpness of the photographed images. SOLUTION: When the S/N ratio of source photographing images is favorable and the amount of the false signals of the foldavor components by the decline of the sampling rate of the picture elements in the color filter of the CCD 1 is small, a signal processing control microcomputer 6 interpolates high frequency components at a high level to image pickup signals, degradation of the high frequency components by the increase of a zoom magnification is corrected and image quality is improved in respect of resolution and sharpness. When the S/N ratio of the source photographing images is relatively worse and the amount of the false signals is relatively large, the signal processing control microcomputer 6 interpolates the high frequency components at a low level to the image pickup signals, magnification of a zoom processing is suppressed as well, the generation of the noise based on the S/N ratio within the photographed images and the false signals due to the color filter of the CCD 1 is suppressed, and the resolution and sharpness of the photographed images are corrected.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video camera having an electronic zoom function.

[0002]

2. Description of the Related Art Some video cameras have an electronic zoom function. According to the video camera with the electronic zoom function, the focal length for viewing is continuously changed without moving an optical system. It becomes possible. With this electronic zoom function, when the magnification ratio is increased by zooming, the high-frequency component of the captured image of the subject is deteriorated, so that the apparent resolution and sharpness are reduced, and the quality of the camera image of the subject is reduced. I will.

In this case, if the quality of the photographed original image of the subject is good, the high frequency component of the photographed image is extracted, the gain of the level of the high frequency component is increased by an electronic circuit, and the gain is added to the photographed image. By compensating for the apparent resolution and sharpness, it is possible to prevent the quality of the camera image from deteriorating.

[0004]

By the way, if the imaging camera uses a single CCD and the sampling rate of the pixels by the color filter attached to the CCD is reduced, the sampling frequency is set at the center of the sampling frequency. An aliasing component, which is a false signal, occurs, enters the frequency band of the captured image signal, and a stepwise jaggy occurs in the captured image as a false signal. When this folded component exceeds a certain level,
If it exists in the captured image, the processing of adding the gain to the captured image by increasing the gain of the high frequency component of the captured image in an attempt to compensate for the resolution and sharpness of the captured image alone will enlarge the electronic zoom As the rate increases, the jaggy stepwise intervals become larger and false signals become more noticeable.

Similarly, even when the SN ratio of a captured image is poor, the gain of the high frequency component of the captured image is increased by trying to compensate for the resolution and sharpness of the captured image alone.
When the processing of adding to the photographed image is performed, as the enlargement ratio of the electronic zoom increases, the size of the noise particles in the photographed image increases, and the noise becomes conspicuous.

[0006] The present invention has been made in view of the current state of operation of a video camera as described above.
A video that can compensate for the sense of resolution and sharpness of a captured image by suppressing the noise based on the SN ratio in the captured image and the generation of false signals based on aliasing components due to a decrease in the sampling rate of pixels due to the color filter of the CCD. It is to provide a camera.

[0007]

According to a first aspect of the present invention, there is provided a video camera provided with an electronic zoom function, comprising: an imaging unit configured to form an image of a subject and output a video signal; A high-frequency component extracting means for extracting a high-frequency component of the video signal; a gain setting means for setting a gain to a high-frequency component of the video signal extracted by the high-frequency component extracting means; and the gain set by the gain setting means. Addition means for adding a high-frequency component to the video signal; camera image signal output means for outputting a camera image signal based on the signal-processed video signal output from the addition means; and operating characteristics of the video camera And control means for performing control setting of the gain of the gain setting means based on the zoom magnification ratio.

[0008]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to FIG. FIG. 1 is a block diagram showing the configuration of the present embodiment.

In this embodiment, as shown in FIG. 1, a light image of a subject is formed, and the image pickup signal is sampled and held by a CCD 1 which outputs an image pickup signal corresponding to the light image, and AD converted. A holding conversion circuit 2 is connected, and an output terminal of the holding conversion circuit 2 is a camera signal processing circuit that performs signal processing such as noise suppression, image defect correction, white balance gain control, and gamma correction on the AD-converted imaging signal. 3 are connected. The output terminal of the camera signal processing circuit 3 is
A high-pass filter 5 configured to extract a high-frequency component of an aperture control unit 12 that is configured by a high-pass filter 5 and a multiplier 10 and sets a level of a high-frequency component of the image-processed image signal; Connected to
An output terminal of the high-pass filter 5 is connected to an input terminal of the multiplier 10.

On the other hand, in this embodiment, a zoom operation key 7 for performing a zoom process at the time of zoom photographing is connected, and an output terminal of the zoom operation key 7 is a signal processing control microcomputer for controlling a signal process at the time of zoom setting. 6, the enlargement ratio signal Fe is input to the electronic zoom processing circuit 8 and the gain signal Fg is input to the multiplier 10 from the signal processing control microcomputer 6. Further, the output terminal of the multiplier 10 is connected to the input terminal of the adder 11, and the adder 1
The output terminal 1 is connected to an electronic zoom processing circuit 8 that performs zoom processing, and is configured to output a captured image signal from the output terminal of the electronic zoom processing circuit 8.

In this embodiment, the memory of the signal processing control microcomputer 6 is generated by the S / N ratio data based on the optical characteristics of the video camera measured in advance and the decrease in the sampling rate of pixels by the color filter of the CCD 1. False value data based on the aliasing component is stored in advance, and the signal processing control microcomputer 6 stores the SN ratio read from the memory, the false signal value, and the zoom set by the user using the zoom operation key 7. Control means is provided for controlling the gain signal Fg supplied to the multiplier 10 and the magnification signal Fe supplied to the electronic zoom processing circuit 8 based on the set value.

The operation of this embodiment having such a configuration will be described. In the present embodiment, when the user operates the zoom operation key 7 to take an image of a subject, a light image of the subject is formed on the light receiving surface of the CCD 1, and is converted into a light image of the subject by photoelectric conversion of the CCD 1. A corresponding image signal is output from the CCD 1, and the image signal is sampled and held by the holding conversion circuit 2 and A / D converted, and then supplied to the camera signal processing circuit 3.
Noise suppression, image defect correction,
Signal processing such as white balance gain control and gamma correction is performed.

On the other hand, when an operation signal is input to the signal processing control microcomputer 6 by operating the zoom operation key 7 by the user, the SN ratio data based on the optical characteristics of the video camera and the CCD 1 are stored in the memory of the signal processing control microcomputer 6. The false value signal data based on the aliasing component generated by the reduction of the pixel sampling rate by the color filter is read out, and the signal processing is performed based on the read SN ratio data and the false signal value data. The gain signal Fg supplied to the aperture control unit 12 and the magnification signal Fe supplied to the electronic zoom processing circuit 8 are calculated and set from the control microcomputer 6.

Then, a high-frequency component is extracted from the image signal processed by the camera signal processing circuit 3 by the high-pass filter 5, and the extracted high-frequency component is
The multiplier 10 multiplies the gain signal Fg calculated and set by the signal processing control microcomputer 6, and the high-frequency component of the image signal multiplied by the gain signal Fg is input to the adder 11. A gain signal Fg is added to the signal-processed imaging signal output from the processing circuit 3.
Are added and the high-frequency component of the image signal multiplied by

As described above, the electronic zoom processing circuit 8 operated by the enlargement ratio signal Fe from the signal processing control microcomputer 6 adjusts the enlargement ratio of the enlargement ratio signal Fe with respect to the image pickup signal in which the high frequency component is interpolated. Corresponding electronic zoom processing is performed. The electronic zoom processing circuit 8 performs zoom processing at an appropriate enlargement ratio, interpolates high frequency components with a gain based on the gain signal Fg, generates noise based on the SN ratio, and performs CCD processing. The generation of a false signal composed of a aliasing component based on the decrease in the sampling rate of the pixel due to the color filter is suppressed, and a high-quality image signal in which the sense of resolution and sharpness of the captured image are corrected is output.

As described above, according to the present embodiment, the S / N ratio of the original photographed image is good, and the amount of the false signal composed of the aliasing component due to the decrease in the pixel sampling rate by the color filter of the CCD 1 is small. In such a case, the signal processing control microcomputer 6 performs high-frequency component interpolation on the image pickup signal at a high level, corrects deterioration of the high-frequency component caused by an increase in the zoom processing magnification, and improves the apparent resolution and sharpness. Correction becomes possible.
If the signal-to-noise ratio of the original photographed image is relatively poor and the amount of the false signal composed of the aliasing component based on the decrease in the sampling rate of the pixel by the color filter of the CCD 1 is relatively large, the signal processing control microcomputer 6 Interpolation of the high-frequency component with respect to the imaging signal is performed at a relatively low level, the enlargement ratio of the zoom processing is suppressed to an allowable value or less, noise based on the S / N ratio in the captured image, and the sampling rate of the pixel by the CCD color filter. It is possible to correct the sense of resolution and sharpness of the captured image while suppressing the generation of a false signal based on the aliasing component due to the decrease.

[0017]

According to the first aspect of the present invention, when a subject is formed on the imaging means, a video signal is output from the imaging means, and a high-frequency component of the output video signal is extracted by the high-frequency component extraction means. The control means controls and sets the gain of the gain setting means based on the operating characteristics of the video camera and the zoom magnification, and the gain setting means controls the high-frequency components of the video signal extracted by the high-frequency component extracting means. The controlled gain is set. Then, the high frequency component with the gain set is added to the video signal by the adding means, and the camera image signal output means outputs a camera image signal based on the signal-processed video signal output from the adding means. Therefore, the gain of the high-frequency component of the video signal is adjusted according to the operation characteristics of the video camera and the zoom magnification, and control can be performed so that the quality of the camera image is not always degraded during zoom shooting.

According to the second aspect of the present invention, when a subject is imaged on the imaging means, a video signal is output from the imaging means, and a high-frequency component of the output video signal is extracted by the high-frequency component extraction means. The control unit controls and sets the gain of the gain setting unit based on the SN ratio and the zoom magnification of the video signal output from the imaging unit. The gain setting unit sets the gain of the video signal extracted by the high-frequency component extraction unit. The controlled gain is set for the high frequency component. Then, the high frequency component with the gain set is added to the video signal by the adding means, and the camera image signal output means outputs a camera image signal based on the signal-processed video signal output from the adding means. Therefore, the gain of the high-frequency component of the video signal is adjusted according to the S / N ratio of the video signal output from the imaging means and the zoom magnification, and when the S / N ratio is not good, the gain of the high-frequency component of the video signal is It is possible to perform control so as to suppress the reduced high-frequency noise component and not to degrade the quality of the camera image.

According to the third aspect of the present invention, when a subject is imaged on the imaging means, a video signal is output from the imaging means, and a high-frequency component of the output video signal is extracted by the high-frequency component extraction means. The control unit controls and sets the gain of the gain setting unit based on the amount of the aliasing component obtained by optical sampling of the imaging unit and the zoom magnification, and the image extracted by the high frequency component extraction unit by the gain setting unit. The controlled gain is set for the high frequency component of the signal. Then, the high frequency component with the gain set is added to the video signal by the adding means, and the camera image signal output means outputs a camera image signal based on the signal-processed video signal output from the adding means. Therefore, the gain of the high-frequency component of the video signal is adjusted in accordance with the amount of the aliasing component due to the optical sampling of the imaging means and the zoom magnification, and when the amount of the aliasing component is large, the high-frequency component of the video signal is adjusted. The gain of the component is reduced, so that a false signal due to an aliasing component in a high frequency region can be suppressed, and control can be performed so as not to lower the quality of the camera image.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of an embodiment of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... CCD, 2 ... holding conversion circuit, 3 ... camera signal processing circuit, 5 ... high-pass filter, 6 ... signal processing control microcomputer, 7 ... zoom operation key, 8 ... electronic zoom processing circuit, 1
0: multiplier, 11: adder, 12: aperture control unit

Claims (3)

[Claims] 1. A video camera having an electronic zoom function, comprising: an imaging unit that forms an image of a subject and outputs a video signal; a high-frequency component extraction unit that extracts a high-frequency component of the video signal; Gain setting means for setting a gain to a high-frequency component of the extracted video signal; addition means for adding the high-frequency component, the gain of which has been set by the gain setting means, to the video signal; output from the addition means A camera image signal output unit that outputs a camera image signal based on the video signal that has been subjected to the signal processing, and a control setting of a gain of the gain setting unit based on an operation characteristic and a zoom magnification of the video camera. A video camera having control means. 2. The video camera according to claim 1, wherein
A video camera, wherein the operation characteristic is an SN ratio of a video signal output from the imaging unit. 3. The video camera according to claim 1, wherein
The video camera, wherein the operation characteristic is an amount of aliasing components due to optical sampling of the imaging unit.