KR0159664B1 - Method for controlling window pulse at the time of back right correction - Google Patents

Abstract

[Technical field to which the invention described in the claims belong]

Window pulse control method for backlight compensation in camera system

[Technical Challenges to Invent]

When using the BLC (Back Light Compensation) function in the camera system, the window pulse is adjusted so that the proper screen is always obtained regardless of the brightness of the background.

[Summary of the solution of the invention]

In the method of controlling window pulses in backlight correction according to the present invention, the brightness value of the background portion to be backlit corresponding to the external area A of the reference window pulse A: B = 6: 4 corresponds to the internal area B. When the same as or less than the brightness value of the screen portion to be taken to generate a wide window pulse width (Fig. 3b) to cover the entire screen, the backlight corresponding to the external area A of the reference window pulse When the brightness value of the background part to be corrected is much larger than the brightness value of the screen part to be shot corresponding to the internal area B, a window pulse width (Fig. 3a) corresponding to the brightness value of the screen part to be shot is generated. And when the brightness value of the background portion to be backlit corresponding to the external region A of the reference window pulse is greater than or equal to the brightness value multiplied by the brightness coefficient value x multiplied by the brightness value of the screen portion B to be taken. To generate a character corresponding to the window pulse-width made brightness is the brightness coefficient value multiplied by the brightness value of the screen area that is (the Figure 3c) control.

[Important Uses of the Invention]

Surveillance Cameras and Camcorders

Description

Window Pulse Control Method in Backlight Correction in Camera System

1 is a general configuration of a camera having a backlight compensation function.

2 is a flowchart for controlling window pulses during backlight compensation according to the present invention.

3 is a view showing adjusting the width of the window pulse WDP according to the brightness values of the outer region A and the inner region B of the window pulse according to the present invention.

* Explanation of symbols for main parts of the drawings

2: Lens 4: CCD (Charge Coupled Device)

6: processor 8: encoder

10: pulse generator 14: ELC (Electronic Level Control) drive unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a camera system, and more particularly, to a method of controlling window pulses during backlight compensation in a surveillance camera and a camcorder.

Surveillance cameras, camcorders, etc. control the lens's iris to block the light to obtain the proper screen according to the change in the brightness of the light (lens IRIS function). Use ELC (Electronic Level Control) function. At this time, if there is a strong light in the background of the screen portion to be taken, use the Back Light Compensation function (hereinafter referred to as BLC function) to obtain an appropriate level by blocking it. The BLC function cuts off the strong light in the background so that you can get the proper level with only the desired part of the screen.

1 shows a general configuration of a camera having a BLC function.

Referring to FIG. 1, the operation of the light collected by the lens 2 is converted into an electrical signal via the CCD 4. This electrical signal is applied to the processor 6.

The processor 6 processes an electrical signal output from the CCD 4 and outputs it to the encoder 8, and the encoder 8 encodes it and outputs a video signal Video. In addition, the processor 6 controls the pulse generator 10 according to the BLC function on / off control of the user. The video signal for driving the IRIS is applied to the collector terminal to the transistor 12.

The pulse generator 10 generates a high state signal at all times when the BLC function is turned off by the processor 6, and generates a window pulse WDP having only a predetermined predetermined period when the BLC function is turned on. The output generated by the pulse generator 10 (a signal in the high state of the entire section or a window pulse WDP in the high state of the specific section only) is applied to the base terminal of the transistor 12.

Therefore, the IRIS drive video signal generated from the processor 6 is selected by the transistor 12 only by the width of the window pulse WDP and applied as the IRIS signal on the line 16 when the BLC function is turned on. However, when the BLC function is turned off, the IRIS driving signals are all selected by the transistor 12 by the signal of the high period for the entire period provided by the pulse generator 10. Therefore, the CCD IRIS or the lens IRIS is driven by using the video signals of all parts of the screen. On the other hand, an IRIS signal equal to the window pulse WDP width when the BLC function is on is provided to the lens 2 to perform lens IRIS, and is provided to the ELC (Electronic Level Control) driver 14 to perform CCD IRIS. The ELC driver 14 operates only for the IRIS signal corresponding to the width of the window pulse WDP to perform electrical level control (ELC) on the CCD 4. This level control allows the screen of the portion to be photographed to be appropriately obtained.

In this technology, when there is a strong light in the background of the screen to be photographed, the BLC function is operated to obtain the level of the part to be appropriately obtained. However, if the BLC function is operated when there is no strong light in the background of the screen, this technology drives the iris (including the lens 2 and the CCD 4) with a smaller amount of the IRIS driving video signal than when the BLC function is turned off. Therefore, the aperture is opened more than when the BLC off, so that the user does not get the proper screen.

Accordingly, an object of the present invention is to provide a method of adjusting a window pulse so that an appropriate screen is always obtained regardless of the brightness of a background when using a BLC (Back Light Compensation) function in a camera system.

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

The hardware configuration in the present invention is the same as that of FIG.

However, in order to achieve the object of the present invention, the processor 6 performs the control flowchart as shown in FIG.

2 is a flowchart of controlling window pulses during backlight compensation according to the present invention. 3 is a view showing that the width of the window pulse WDP is adjusted according to the brightness values of the outer region A and the inner region B of the window pulse according to the present invention. Here, the reference window pulse means a minimum user-defined window pulse, and in this embodiment, it is assumed that A: B = 6: 4.

In addition, it should be noted that the outer area A of the reference window pulse is a background screen portion to be backlit, and the inner area B is a screen portion to be photographed.

Hereinafter, the operation of the present invention will be described in more detail with reference to FIGS. 1, 2 and 3.

Referring to FIG. 2, the processor 6 determines whether data corresponding to the BLC function selection is input in step 200. The BLC function selection is made by the user pressing the BLC switch. If there is no BLC function selection, the processor 6 remains in a normal state. However, if the BLC function is selected, go to step 204. The processor 6 controls the pulse generator 10 to generate a minimum window pulse defined by the user, that is, a reference window pulse, that is, WDP = a (A: B = 6: 4) as illustrated in FIG. 204.

The video data coming in through the lens 2 and the CCD 4 is also applied to the processor 6, which stores one screen of the video data in a memory. Thereafter, the processor 6 integrates the size value of the external area A and the size value of the internal area B of the reference window pulse among video signals of one screen stored in the memory based on the reference window pulse in step 206. At this time, the ratio of the size value of the outer region A to the size value of the inner region B is 6: 4.

Thereafter, the processor 6 proceeds to step 208 and compares the brightness value of the background portion (outer region) A to be backlit with the brightness value of the screen portion (inner region) B to be photographed as the following inequality (1). .

The inequality (1) means that there is no difference between the brightness value of the background screen portion A to be backlit and the portion B to be photographed or the portion B to be photographed is brighter. If the determination of the inequality (1) is YES in step 208, the processor 6 proceeds to step 210 and WDP = b as shown in FIG. The pulse generating unit 10 is controlled to generate.

However, if the determination of the inequality (1) is no in step 208, the processor 6 proceeds to step 212.

The processor 6 compares the brightness value of the background portion (outer region) A to be backlit with the brightness value of the screen portion (inner region) B to be taken as an inequality (2) in step 212.

The inequality (2) means that the background part A to be backlit is considerably brighter than the part B to be photographed. The coefficient 3 in the inequality (2) is an experimental value. If the determination of the inequality (1) in step 212 is YES, the processor 6 proceeds to step 214 the window pulse width corresponding to the brightness value of the screen portion B to be taken, that is, WDP as shown in Figure 3a The pulse generator 10 is controlled to generate = b.

However, if the determination of the inequality (2) in step 212 is no, the processor 6 proceeds to step 216 the variable that is the brightness coefficient value Is set to 2.8. In step 218, the window pulse is increased by one step (predetermined predetermined pulse interval by the user), and then step 220 is performed.

In step 220, the processor 6 compares the brightness value of the background screen portion (outer region) A to be backlit with the brightness value of the screen portion (inner region) B to be photographed as the following inequality (3).

In inequality (3), it can be seen that the brightness value A of the background is an intermediate value between the brightness value of step 208 and the brightness value of step 212. If the determination of the inequality (3) is Yes in step 220, the processor 6 proceeds to step 222 to determine the brightness value coefficient Is multiplied by the brightness value of screen portion B The pulse generator 10 is controlled such that WDP = c as shown in FIG. 3C, which is the window pulse width corresponding to B, is generated.

However, if No in the inequality (3), the processor 6 proceeds to step 224 to the current brightness value coefficient Set the brightness coefficient value back to 0.2 at, and go back to step 218 again. Thus, the processor 6 eventually finds a window pulse value WDP = c from which an appropriate screen can be obtained, and controls the pulse generator 10 to generate the found WDP = c. In this operation, it can be seen that the width of the window pulse value WDP = c varies according to the brightness of the background.

The operation of FIG. 2 solves the conventional problem of being unable to cope with changes in the environment by using a window pulse determined when the conventional BLC function is used. As described above, the present invention has the advantage that the window pulse width can be changed in accordance with the change of the brightness when using the BLC function, thereby changing the driving of the aperture (including the lens and the CCD) according to the backlight to always obtain an appropriate screen. .

Claims (2)

A method of controlling a window pulse indicating a boundary of a screen to be backlit when a backlight is corrected in a camera system, the method comprising: generating a reference window pulse defined by a user in response to the backlight compensation selection; A second step of calculating and re-storing the size value of the external area and the internal value of the reference window pulse among the video signals of one screen stored in the memory when selecting the backlight compensation based on the window pulse; When the brightness value of the background part to be backlit corresponding to the external area is equal to or less than the brightness value of the screen part to be taken corresponding to the internal area, the window pulse width is wide enough to cover the entire screen. And a third process of controlling to generate the backlight, and a background portion to be backlit corresponding to the external area of the reference window pulse. A fourth process of controlling to generate a window pulse width corresponding to the brightness value of the screen portion to be photographed when the brightness value of the image is much larger than the brightness value of the screen portion to be photographed corresponding to the internal region; and the reference window When the brightness value of the background portion to be backlit corresponding to the external area of the pulse is greater than the brightness value of the screen portion to be photographed in the third process and less than the brightness value of the screen portion to be photographed in the fourth process, A fifth process of setting a brightness coefficient value and a brightness value of a screen portion to which a brightness value of a background screen portion to be backlit corresponding to the external area of the reference window pulse corresponding to the fifth process is to be taken; When the coefficient value is greater than or equal to the multiplied brightness value, a window corresponding to the brightness value multiplied by the brightness coefficient value of the screen portion to be photographed Window pulse control method at the time of backlight compensation, characterized by constituted by any process of claim 6 for controlling to generate a seupok. A method of controlling a window pulse indicating a boundary of a screen to be backlit when a backlight is corrected in a camera system, the method comprising: generating a reference window pulse defined by a user in response to the backlight compensation selection; A second process of calculating and storing the brightness value of the external area of the reference window pulse and the brightness value of the internal area among the video signals of one screen stored in the memory when the backlight compensation is selected based on the window pulse; When the brightness value of the background part to be backlit corresponding to the external area is equal to or less than the brightness value of the screen part to be taken corresponding to the internal area, the window pulse width is wide enough to cover the entire screen. And a third process of controlling to generate the backlight, and a background portion to be backlit corresponding to the external area of the reference window pulse. A fourth process of controlling to generate a window pulse width corresponding to the brightness value of the screen portion to be photographed when the brightness value of the image is much larger than the brightness value of the screen portion to be photographed corresponding to the internal region; and the reference window When the brightness value of the background portion to be backlit corresponding to the external area of the pulse is greater than the brightness value of the screen portion to be photographed in the third process and less than the brightness value of the screen portion to be photographed in the fourth process, A fifth process of setting a brightness coefficient value, and in response to the fifth process, the reference window pulse is increased by a predetermined step, and the brightness of a portion of the background screen to be backlight-corrected corresponding to the external area of the reference window pulse corresponding thereto; A sixth step of comparing the brightness value of the screen portion to be taken with the brightness value multiplied by the brightness coefficient value; When the brightness value of the hardened surface portion is less than the brightness value multiplied by the brightness coefficient value of the screen portion, the seventh process of reducing the brightness coefficient value by a predetermined value and performing the sixth process again; In a sixth step, an eighth step of controlling a window pulse width to be generated when the brightness value of the background portion to be backlit is greater than the brightness value multiplied by the brightness coefficient value of the screen portion. A method of controlling window pulses during backlight compensation.