KR100576915B1 - Apparatus For Automatic Controlling Camera Frame In The Mobile Communication Terminal - Google Patents

Abstract

The present invention is a camera in a mobile communication terminal to automatically adjust the frame rate of the camera according to the YUV value of each pixel (Liquid Crystal Display) LCD according to the change of environment when shooting a video using a camera mounted on the mobile communication terminal Frame automatic adjustment device.

According to the apparatus for automatically adjusting the camera frame in the mobile communication terminal of the present invention, each pixel of the video screen according to the change of the current video recording environment according to the change of the current video recording environment when the video recording using the camera mounted on the mobile communication terminal By automatically adjusting the number of frames related to the exposure time of light in real time according to the change of YUV value, the user can not only control the screen brightness and the speed of motion while shooting a movie, but also improve the overall movie recording quality. do.

Mobile terminal, camera, video recording, screen brightness, YUV value, frame rate

Description

Apparatus For Automatic Controlling Camera Frame In The Mobile Communication Terminal}

1 is a block diagram showing an apparatus for automatically adjusting a camera frame in a mobile communication terminal according to the present invention.

2 is a flowchart illustrating an operation of automatically adjusting a camera frame in a mobile communication terminal according to the present invention.

Explanation of symbols on the main parts of the drawings

11: camera 12: camera driver

13 memory unit 14 control unit

15: frame determination unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication terminal having a camera. In particular, the frame rate of the camera is automatically adjusted according to the YUV value of each pixel of the liquid crystal display (LCD) according to the change of environment when the video is taken using the camera mounted on the mobile communication terminal. The present invention relates to an apparatus for automatically adjusting a camera frame in a mobile communication terminal.

In recent years, the mobile communication terminal has been miniaturized with high sensitivity miniaturization and light weight of electronic components, and according to the needs of consumers, in addition to the simple call function, the mobile communication terminal is used for games, Internet search, e-mail transmission, and payment. Mobile communication terminals equipped with various functions have been generalized, and recently, a camera phone having a camera function added to the mobile communication terminal has been commercialized.

The camera phone described above may photograph the subject with the camera when switching from the communication mode to the camera mode (photo or camcorder), and play back the captured image or transmit it to another user.

In addition, with the development of mobile communication terminals, the built-in or external cameras mounted on the corresponding terminals are gradually increasing in number of pixels and improving in image quality. Also, as the memory capacity of mobile terminals increases, not only general short-range photography but also video are available. Photography became possible.

And, in shooting a video using a mobile communication terminal equipped with the above-described camera, the screen brightness for the video displayed on the LCD screen is determined by the number of frames representing the number of images taken in one second, for example For example, as the number of frames per second increases the exposure time of light per frame, the screen looks brighter as the video is shot brightly. On the contrary, when the number of frames per second increases, the screen time becomes shorter as the video is darkened. Have

However, in the related art, when the user wants to shoot a video using a camera mounted on the mobile communication terminal, the terminal itself is designated with one specific value, or when the terminal user manually sets the frame number to shoot the video. As a result, there is a problem in that the number of frames cannot be properly adjusted in response to the changing video recording environment in real time, which causes a problem in that the video recording quality is poor, such as the video being too dark or too bright.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object thereof is to provide a video recording method using a camera mounted on a mobile communication terminal according to a change in the YUV value of each pixel of a video screen according to a change in the current video recording environment. The purpose is to automatically adjust the number of frames associated with the exposure time of light in real time.

Another object of the present invention is to automatically control the number of frames in real time according to changes in the current video recording environment when shooting a video using a camera in the mobile communication terminal, thereby effectively controlling the screen brightness and operating speed, etc. during video recording. To improve the overall video shooting quality.

A feature of the present invention for solving the above object is to transfer the YUV value of each pixel of the LCD for the video screen shot by the camera mounted on the mobile communication terminal, and adjust the number of frames of the camera to the corresponding frame A camera driver for controlling the driving of the camera to record the video by the number; A frame determination unit which compares and analyzes a frame specific value received when a frame number determination request is made, determines a frame number suitable for a current video shooting environment, and delivers information on the determined frame number as a response to the frame number determination request; After combining the YUV values of each pixel of the LCD transmitted from the camera driver to generate a frame specification value representing the screen brightness for the current video, the frame specification value is transmitted to the frame determiner to determine the number of frames. And controlling the camera driver according to the number of frames transmitted in response to the frame number determination request from the frame determination unit to control the number of frames of a camera being photographed. To provide a device.

The apparatus for automatically adjusting a camera frame in the mobile communication terminal further includes a memory unit which stores information on the number of frames during video shooting corresponding to each frame specific value required for determining the number of frames in the frame determination unit. It is characterized by.

In this case, the frame determining unit compares a frame specification value indicating a video shooting environment, which is a frame specification value received when the frame number is requested, and the frame determination value is a frame specification value indicating that the current video recording environment is dark. If the frame number is determined to be relatively small, and the frame specific value is determined to be a frame specific value indicating that the current video shooting environment is bright, the frame number is relatively large.

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

In the present invention, when shooting a video using a camera mounted on the mobile communication terminal to generate a frame specific value indicating the screen brightness by combining the YUV value of each pixel for the video screen displayed on the LCD screen, the frame By comparing and analyzing specific values and automatically adjusting the number of frames related to the exposure of light when shooting a video, we want to shoot a video with the appropriate screen brightness in response to changes in the video shooting environment. As shown in FIG.

That is, the apparatus for automatically adjusting the camera frame in the mobile communication terminal according to the present invention, as shown in Figure 1, the camera 11, which serves as a photographing or video recording means using the terminal, and for driving the camera 11 A camera unit 12, a memory unit 13 storing frame control information corresponding to each frame specific value, a control unit 14 for controlling video shooting using the camera 11, and And a frame determination unit 15 for determining the number of camera frames.

Here, the camera driver 12 is an abbreviation used when referring to a YUV value (a luminance signal and a chrominance signal) of each pixel of an LCD for a video screen captured by the camera 11, and 'Y' denotes a luminance signal. U, V 'means the color difference signal used in the PAL method) to the control unit 14, and controls the number of frames of the camera 11 under the control of the control unit 14 to shoot a video with the corresponding frame number Control the camera drive.

The memory unit 13 stores frame control information for controlling the number of frames at the time of video recording corresponding to each frame specific value so that the video can be captured at an appropriate screen brightness according to the current video shooting environment.

The controller 14 combines the YUV values of the pixels of the LCD transmitted from the camera driver 12 to generate a frame specification value representing the screen brightness of the currently captured video screen, and converts the frame specification value to the frame determiner 15. After requesting to determine the number of frames by controlling the number of frames, the camera driver 12 is controlled according to the number of frames determined by the corresponding frame determiner 15 to control the number of frames of the camera 11 during video shooting.

The frame determination unit 15 compares and analyzes the frame specific value transmitted from the control unit 14 with the information stored in the memory unit 13 to determine the number of frames suitable for the current video shooting environment. The frame control information is transmitted to the controller 14.

With reference to Figure 2 attached to the camera frame automatic adjustment operation when shooting a video in a mobile communication terminal having a configuration as described above in detail as follows.

First, when a terminal user selects a video recording mode by operating a key button to capture a video using his mobile terminal, the controller 14 of the corresponding mobile terminal recognizes that the current video recording mode is selected. Accordingly, by controlling the camera driver 12 to drive the camera 11 mounted on the terminal to start the video recording desired by the terminal user, the video taken through the corresponding camera 11 on the LCD screen Will be displayed.

Then, after the video recording using the camera 11 mounted on the mobile communication terminal starts (step S21), the camera driver 12 YUV of each pixel of the LCD for the video screen captured at a specific point in time through the camera 11 The value is transmitted to the control unit 14 (step S22).

Then, the controller 14 generates the frame specification value for the currently captured video screen by combining the YUV values of the pixels of the LCD transmitted from the camera driver 12 (step S23), and then determines the frame specification value for the frame specification value. By transmitting to the unit 15, the frame number determination for adjusting the frame number of the camera 11 is requested in accordance with the current video shooting environment (step S24).

In this case, the frame determiner 15 compares and analyzes the frame specification value transmitted from the corresponding controller 14 according to the frame number determination request of the controller 14, that is, the frame specification value and the memory transmitted from the controller 14. After comparing and analyzing the information stored in the unit 13, that is, the frame control information for controlling the number of frames at the time of video shooting corresponding to each frame specific value, the frame number suitable for the current video shooting environment is determined (step S25). ), The frame control information for the frame number determined in this way is transmitted to the controller 14.

The controller 14 performs frame number adjustment on the camera driver 12 according to the frame control information transmitted from the frame determiner 15, that is, the number of frames determined by the frame determiner 15. The camera driver 12 controls to adjust the number of frames of the camera 11 during video shooting according to the number of frames determined according to the current video shooting environment.

In this case, the camera driver 12 may automatically adjust the number of frames of the camera 11 during video recording according to the frame number control of the controller 14 to capture a video at an appropriate screen brightness in response to changes in the video shooting environment ( Step S26).

For example, assuming that the frame specific value combining the YUV values of black pixels is '10 -20 ', the closer the frame specific value is to' 10 ', the brighter the black, conversely, the frame specific value is set to' 20 '. The closer it is, the darker the test.

When shooting a video in a dark place, the video is relatively bright by adjusting the number of frames of the camera 11 to be relatively small so that a lot of light is exposed. Since the bright picture is taken, it is preferable to shoot the video so that the video is smoothly connected by minimizing the interruption of the video by controlling the frame number of the camera 11 relatively large.

Thus, in the present invention, when shooting a video using the camera 11 mounted on the mobile communication terminal, the frame number of the camera 11 is automatically adjusted according to a corresponding video recording environment change. 11) automatically adjusts the number of frames between '10 and 20 ', and assumes that the YUV value of each pixel of the LCD is displayed for the video screen that was originally taken outside the home, assuming the movie is taken while moving from a relatively bright house to a dark house. The combined frame specific value generates a value close to '10' (for example, '12'), and the frame determiner 15 determines the number of frames to be close to '20' (for example, '18'). By adjusting the number of frames of the camera 11 relatively large, that is, by adjusting the number of frames of the camera 11 to '18', the moving picture is smoothly connected.

Then, when the moving picture environment moves to a relatively dark house, a frame specific value combining YUV values of each pixel of the LCD for the moving picture screen generated in the house is generated to a value close to '20' (for example, '19'). In this case, the frame determiner 15 determines the number of frames of the camera 11 to a value close to '10' (for example, '11') in response to the frame specific value '19' for the currently captured video. Accordingly, the controller 14 controls the camera driver 12 according to the number of frames determined by the frame determiner 15 to adjust the number of frames of the camera 11 to be small, that is, to adjust the number of frames of the camera 11. Adjust the value to '11' to increase the exposure of light so that the video is taken brightly.

In addition, the embodiments according to the present invention are not limited to the above-described embodiments, and various alternatives, modifications, and changes can be made within the scope apparent to those skilled in the art.

As described above, according to the apparatus for automatically adjusting the camera frame in the mobile communication terminal of the present invention, when the video is captured using the camera mounted on the mobile communication terminal, the number of frames related to the exposure time of light is changed in real time according to the current video recording environment. By automatically adjusting, the user can not only efficiently control the screen brightness and the operation speed at the time of video recording, but also improve the overall video recording quality.

Claims (4)

A camera driver for transmitting a YUV value of each pixel of the LCD for a video screen captured by a camera mounted on a mobile communication terminal, and controlling the driving of the camera to adjust the number of frames of the camera to shoot a video at a corresponding frame number; A frame determination unit which compares and analyzes a frame specific value received when a frame number determination request is made, determines a frame number suitable for a current video shooting environment, and delivers information on the determined frame number as a response to the frame number determination request; After combining the YUV values of each pixel of the LCD transmitted from the camera driver to generate a frame specification value representing the screen brightness for the current video, the frame specification value is transmitted to the frame determiner to determine the number of frames. And a controller configured to control the camera driver according to the number of frames transmitted in response to the frame number determination request from the frame determiner to control the number of frames of the camera being photographed. Camera frame auto adjuster. delete The method of claim 1, The apparatus for automatically adjusting a camera frame in a mobile communication terminal, further comprising a memory unit which stores information on the number of frames at the time of capturing a video corresponding to each frame specific value necessary for determining the number of frames by the frame determination unit. . The method of claim 1, The frame determining unit compares a frame specification value indicating a video shooting environment, which is a frame specification value received when the frame number is requested, and as a result, the frame determination value is identified as a frame specification value indicating that the current video recording environment is dark. If the frame number is determined to be relatively small, and the frame specific value is determined to be a frame specific value indicating that the current video recording environment is bright, the camera frame in the mobile communication terminal is determined to be relatively large. Self-regulating device.

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