JP2003219269A - Video camera with gamma correction switching function - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a video camera with a gamma correction switching function capable of preventing a luminance change in character display or the like by an on-screen display from occurring due to gamma correction on/off, etc. <P>SOLUTION: A signal superimposition circuit 3b is a circuit for performing on-screen display, and superimposes character video and mask video upon image pickup video. A gamma correction circuit 3a performs gamma correction of a superimposed video signal. However, a command with no gamma correction is received, gamma correction is not performed. The signal superimposition circuit 3b can change (correct) a signal level of the character video and the mask video. In the gamma correction, if the corrected character video, etc., is made to be, for example, at 200 mV luminance level, in the no gamma correction, a signal level of the character video, etc., is changed before superimposition so as to be 200 mV luminance level. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video camera with a gamma correction switching function.

[0002]

2. Description of the Related Art In the television standard of NTSC and the like, the gamma value of a monitor is specified to be, for example, 2.2. In a video camera which supplies a video signal to this monitor, the total gamma value of 1 (1) Gamma correction of a gamma value of 0.45 is performed on the picked-up image signal so as to be linear). By this gamma correction, the image displayed on the monitor shows a linear change in luminance with respect to the picked-up image signal.

On the other hand, there are cases in which it is desired to utilize the linearity of the picked-up image signal output from the video camera as it is.
For example, in factory automation (FA) and the like, when image processing is performed using captured video, accurate image processing may not be possible unless the video signal output with respect to brightness changes linearly. . Therefore, a video camera having a function of turning off the gamma correction is provided.

[0004]

However, when a video camera having a switching function for turning off the gamma correction has an on-screen display (OSD) function, for example, a display image to be displayed in gray is in a gamma correction ON state. However, when the gamma correction is OFF, a gray character does not appear on the monitor (luminance changes). Further, if such a brightness change causes a sharp brightness change on the video signal in the 1H period, smear of the video signal may occur. The smear of the video signal is a phenomenon in which the signal level fluctuates and appears as a shadow (to the right) on the screen when a relatively weak clamping process is performed on the video signal having a sharp luminance change. .

In view of the above circumstances, the present invention is a video with a gamma correction switching function capable of preventing a change in brightness such as a character display on an on-screen display and a smear of an image due to ON / OFF of gamma correction. The purpose is to provide a camera.

[0006]

In order to solve the above-mentioned problems, a video camera with a gamma correction switching function of the present invention includes an imaging video signal output section for generating an imaging video signal based on a captured video, A superimposing circuit that superimposes a display image on the captured image signal, a gamma correcting circuit that performs gamma correction on the image signal that has passed through the superimposing circuit, and a gamma that selects at least a first gamma correction value and a second gamma correction value. It is characterized by comprising a correction switching means and a level changing means for changing the signal level of the display image according to the gamma correction switching.

With the above arrangement, the level changing means can change the signal level of the display image according to the gamma correction switching, so that the change in the brightness of the display image by the on-screen display can be reduced, It is possible to prevent smearing of images.

The level changing means sets the emission brightness of the display image on the monitor at the first gamma correction value and the emission brightness of the display image on the monitor at the second gamma correction value. It is preferable to change the signal level of the display image so that the same level is obtained. The first gamma correction value includes a value without gamma correction.

[0009]

BEST MODE FOR CARRYING OUT THE INVENTION A video camera with a gamma correction switching function according to an embodiment of the present invention will be described below with reference to FIGS.
It will be described based on.

FIG. 1 is a block diagram showing a video camera with a gamma correction switching function of this embodiment. In a configuration capable of capturing a color image, the CCD 1 generates a red signal (R) output, a green signal (G) output, and a blue signal (B) output, and these output signals are output to the CDS (correlated AGC is performed by noise removal processing by double sampling (correlation double sampling).
The gain is controlled by (automatic gain control). The microcomputer 4 controls the pre-stage processing circuit 2.

The output processed in the previous stage is input to the signal processing circuit 3. In this signal processing circuit 3, gamma correction processing, display signal superposition processing, and other signal processing are performed. Other signal processing includes black and white level adjustment, contour compensation processing, conversion processing into a video signal for transmission (composite signal conversion, etc.), and the like.

The gamma correction circuit 3a performs gamma correction processing on the RGB signals. The gamma correction process is a process performed in consideration of the electro-optical conversion characteristics of the monitor (CRT). In the monitor, if the input signal is E _i , the light emission output of the monitor is E _o , and the gamma characteristic is γ, then E _o = E _i ^r . In the NTSC system,
γ = 2.2, and γ = 1 / 2.2 = 0.45 is corrected on the camera side so that the total is γ = 1. That is, in the gamma correction performed on the camera side, the signal before gamma correction is E _i and the signal after gamma correction is E _i .
_{If o} , signal conversion of E _o = E _i ^0.45 is performed.

The gamma correction circuit 3a is composed of, for example, a circuit including some resistors and transistors, and performs gamma correction by the polygonal line approximation. In the case of digital processing, the gamma correction circuit 3a is composed of a table memory and an arithmetic circuit. The gamma correction circuit 3a includes a switching circuit (not shown). This switching circuit outputs the pre-gamma-correction signal E _i as it is in a state where the above-mentioned gamma correction is executed on the pre-gamma-correction signal E _i based on the switching instruction from the microcomputer 4 (in other words, E _o = E _i ¹ ) state (without gamma correction).

Here, since the signal level of the pre-gamma-correction signal E _{i as it is} (without gamma correction) is not within the proper range as a video signal, the gain adjustment of brightness and the adjustment of the setup level are performed. That is, the above adjustment is performed at the same time as switching without gamma correction. Therefore, when the gamma correction is performed, the corrected output is, for example, 200 mV, and when the gamma correction is not performed, the adjusted output is, for example, 300 mV. Therefore, if the image is output as it is, the character image added by the on-screen display function is, for example, 200 mV when the gamma correction is performed, but is 300 mV when the gamma correction is not performed.
As a result, the brightness level becomes high, and as described in the conventional section, the brightness of the superimposed display image changes or the image smear occurs. The signal superimposing circuit 3b, which will be described later, is configured to prevent such a problem.

The signal superimposing circuit 3b is a circuit for executing an on-screen display, and has a mask area of a predetermined size (for example, gray) for superimposing message characters and explanatory characters on a picked-up image and masking. Area) is displayed on the screen. The signal superimposing circuit 3b generates a character image or a mask image to be superimposed on the captured image based on the output instruction from the microcomputer 4. The above-mentioned adjustment when gamma correction and without gamma correction are performed on the video signal on which the character image and the mask image are superimposed.

The signal superimposing circuit 3b can change (correct) the signal level of the superimposed character image or mask image. At the time of gamma correction, if the corrected character image is set to a brightness level of, for example, 200 mV, the adjusted character image without gamma correction is also 200 m.
A change (correction) is made to lower the signal level of the character image or the mask image before the superimposition so that the brightness level becomes V.

In the above example, the gamma correction value is selectively changed from a value without correction to a predetermined correction value, but the gamma correction value is changed from a value without correction to a predetermined value. Even in the case of continuously changing between the correction value and the correction value of 1, the signal level of the character image or the mask image may be changed (corrected) before the superimposition according to the change. The flowchart shown in FIG. 2 briefly shows the processing contents for changing the levels of the character image and the mask image (superimposed signal). When the gamma correction value is not switched (NO in step S1), the level of the superimposed signal is not changed (step S2). On the other hand, when switching the gamma correction value (YE in step S1)
S), the level of the superimposed signal is changed according to the change of the gamma value (step S3).

[0018]

As described above, according to the video camera with the gamma correction switching function of the present invention, the switching of the gamma correction causes a change in the brightness of the character display on the on-screen display or the smear of the image. There is an effect that it can be prevented.

[Brief description of drawings]

FIG. 1 is an explanatory diagram showing a configuration of a video camera with a gamma correction switching function of this embodiment.

FIG. 2 is a flowchart briefly showing a process of changing the levels of a character image and a mask image (superimposed signal).

[Explanation of symbols]

1 CCD 2 Pre-processing circuit 3 Signal processing circuit 3a Gamma correction circuit 3b Signal superposition circuit 4 microcomputer

Claims (3)

[Claims] 1. A picked-up image signal output section for generating a picked-up image signal based on a picked-up image, a superimposing circuit for superposing a display image on the picked-up image signal, and gamma correction for the video signal passed through the superposing circuit. A gamma correction circuit to be applied, a gamma correction switching means for selecting at least a first gamma correction value and a second gamma correction value, and a level changing means for changing the signal level of the display image according to the gamma correction switching,
A video camera with a gamma correction switching function that is equipped with. 2. The video camera with gamma correction switching function according to claim 1, wherein the level changing unit is the first
Signal of the display image so that the emission brightness of the display image on the monitor at the gamma correction value of is equal to the emission brightness of the display image on the monitor at the second gamma correction value. A video camera with a gamma correction switching function characterized by changing the level. 3. The video camera with gamma correction switching function according to claim 1 or 2, wherein the first gamma correction value includes a value without gamma correction. camera.