KR0183763B1 - Back light correction method and monitoring camera using it - Google Patents

Abstract

We present a backlight compensation method that reflects changes in light sources and a surveillance camera using the same. A method for performing a backlight compensation according to a change of a light source, the method comprising: generating data regarding a backlight compensation area for each time zone according to a change of a light source; Storing the data; And reading the stored data and generating a window pulse generator for backlight compensation according to the read data. According to the present invention, an accurate backlight compensation can be performed by reflecting the change of the light source.

Description

Backlight Compensation Method and Surveillance Camera

1 is a block diagram illustrating a conventional surveillance camera.

2 is a view for explaining the time-based movement of the light source.

3 is a flowchart illustrating a backlight compensation method according to the present invention.

4 is a block diagram illustrating a monitoring camera to which the backlight compensation method according to the present invention is applied.

The present invention relates to a backlight compensation method, and more particularly, to a backlight compensation method reflecting a change in a light source and a surveillance camera to which the same is applied.

When shooting a subject with a surveillance camera, if there is an intense light source or illumination behind the subject, the image is darkened. Therefore, back light compensation should be performed.

FIG. 1 is a block diagram illustrating a conventional surveillance camera, in which reference numeral 1 denotes a lens, 3 denotes a charge coupled device (CCD), 5 denotes a main processor, 7 9 denotes a signal processor, and 9 denotes a window pulse generator.

Under the control of the main processor 5, the window pulse generator 9 generates a window pulse generator for backlight compensation, and the pulse is decoded by the signal processor 7 to decode the RY, BY, and Y signals to generate a video signal. Occurs.

However, in the normal state, when the camera receives a high luminance signal, the camera reduces the luminance by an iris. Therefore, when there is a light source behind the subject, the iris is closed by judging it as a high luminance value, so that the actual subject to be photographed is dark. In order to compensate for this, when there is a light source in the background of a subject, a window pulse generator is generated around the subject to recognize only the luminance signal of the subject and delete the light source.

Therefore, it is possible to capture the subject without being influenced by the light source.

However, since the existing camera generates only the window pulses set regardless of the environment installed by the manufacturer, as shown in FIG. In addition, since the influence of the light source also varies depending on the installation position of the camera, the window pulse generator for fixed backlight compensation cannot sufficiently perform the backlight compensation function. That is, conventionally, there is a problem in that the region for backlight correction is fixed, so that backlight correction is not properly performed when the region changes.

Accordingly, an object of the present invention is to provide a backlight compensation method reflecting a change in a light source.

In addition, another object of the present invention is to provide a camera for monitoring by applying a backlight compensation method reflecting the change of the light source.

A method for performing backlight compensation according to a change in a light source according to the present invention for achieving the above object, the method comprising: generating data relating to the backlight compensation region for each time zone according to the change of the light source; Storing the data; And reading the stored data and generating a window pulse generator for backlight compensation according to the read data.

In addition, in the monitoring camera for performing a backlight compensation according to the change of the light source according to the present invention for achieving another object of the present invention, the image pickup signal is divided into a predetermined number of screen areas and the luminance average value of each divided area Calculating screen dividing means; Means for generating data relating to the backlight compensation region for each time zone based on the luminance average value from the screen dividing means, and generating window pulses according to the data; And storage means for storing the data.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a flowchart illustrating a backlight compensation method reflecting the change of the light source according to the present invention.

First, the backlight compensation region is set for each time zone according to the movement of the light source (sun), and data corresponding to the set region is generated (100).

Data about the backlight compensation region for each time zone is stored (110).

Data about the backlight compensation region for the current time is read at predetermined time intervals (120).

In operation 130, a window pulse for backlight compensation corresponding to the read data is generated.

4 is a block diagram illustrating the configuration of a surveillance camera to which a backlight compensation method reflecting a change in a light source according to the present invention is shown, wherein reference numeral 11 denotes a lens, 13 denotes an imaging device (CCD), 15 Denotes a screen divider, 17 denotes a signal processor, 18 denotes a timer, 19 denotes a microcomputer, 21 denotes an OSD, and 23 denotes a storage.

The screen dividing unit 15 divides the screen into 48 regions as shown in Table 1, and has a luminance average value of each field for each region, and this average value serves as a reference for determining a subject.

The signal processor 17 decodes the input R-Y, B-Y, and Y signals to generate a composite video signal.

The microcomputer 19 generates data relating to the appropriate backlight correction area for each time zone based on the screen-divided signal of the screen divider 15, stores the data in the storage unit 23, and also stores the data from the timer 18. The window pulses are generated based on the data stored in the storage unit 23 for the appropriate backlight correction region at the time recognized by the time signal of. In addition, the display driver 21 may display the position on a screen display device (not shown) so that the user can see it if necessary.

Looking at the operation according to the configuration as follows.

As shown in FIG. 2, since positions of light sources for respective time zones are different in a camera installed at a fixed position, a portion recognized as a subject except a light source is different. As shown in Table 2 below, the backlight compensation region has four conversions according to time.

The morning and evening assume that there is no light source and accept the entire screen as data, and in the morning, accept the remainder of omitting the 9 areas of Table 1 in the east and the rest of the top 12 areas in the afternoon as data. Recognize. Since the position of the light source is different when the surveillance camera is fixedly mounted and the subject is photographed, the backlight compensation area should be different for each time zone. In order to determine an appropriate backlight compensation region at each time, and to generate a corresponding shadow pulse, a 24-hour backlight compensation region test period is obtained to obtain a window pulse region for each time zone corresponding to the installed camera environment, and stored in the storage unit 23. At this time, the storage unit 23 may be configured as an EEPROM to preserve data even in the absence of power supply. In addition, the display driver 21 may be controlled to drive the screen display device (not shown) so that the user can see the position. Therefore, the camera installed and fixed through the 24-hour backlight compensation test period can read out the appropriate window pulses from the storage unit 23 for each time and output the corrected backlight pulse reflecting the change of the light source.

As described above, the present invention has the advantage that accurate backlight correction can be performed by setting the backlight compensation region for each time zone reflecting the change of the light source.

Claims (2)

A method for performing a backlight compensation according to a change of a light source, the method comprising: generating data regarding a backlight compensation area for each time zone according to a change of a light source; Storing the data; And reading out the stored data and generating a window pulse generator for backlight compensation according to the read data. A monitoring camera for performing a backlight compensation according to a change of a light source, the monitoring camera comprising: screen dividing means for dividing an image pickup signal into a predetermined number of screen regions and calculating a luminance average value of each divided region; Means for generating data relating to the backlight compensation region for each time zone based on the luminance average value from the screen dividing means, and generating window pulses according to the data; And storage means for storing the data.