KR100456972B1 - Video encoding method for mobile terminal which have camera built in - Google Patents

Abstract

Disclosed is a video encoding method of a camera embedded mobile terminal. The video encoding method of a camera-equipped mobile terminal according to the present invention comprises the steps of: (a) requesting a camera for information on resolutions and image types supported by the camera; (b) resolution and image types supported by the camera from the camera; (C) determining a setting value by searching for a value suitable for encoding based on the information on the resolution and image type supported by the camera; and (d) the camera hardware control module Changing the setting value using the setting value, and (e) importing and encoding a video image input through the camera hardware control module according to a timer event of a predetermined time unit.

The video encoding method of a camera-equipped mobile terminal according to the present invention has a lot of restrictions on the performance of the central processing unit, such as a mobile phone and a personal digital assistant (PDA), and a handheld in which transmission is performed based on wireless having a poor transmission environment. In the field of (hand-held) based mobile terminals, there is an advantage that the video can be efficiently encoded using the current level of the central processing unit. In addition, according to the video encoding method as described above, the encoded video may maintain a frame rate of about 3 frames per second.

Description

Video encoding method for mobile terminal which have camera built in}

The present invention relates to a video encoding method, and more particularly, to a video encoding method of a camera-embedded mobile phone.

Recently, the popularity of mobile phones with built-in cameras is increasing rapidly. Such camera-embedded mobile phones are required to encode not only still images but also moving images, and to encode images and transmit them to other mobile phones. In general, the wireless transmission environment is very poor compared to the wired transmission. Therefore, the error resilience must be taken into account when encoding the video, and the resolution of the captured video cannot be increased indefinitely. do.

In addition, the central processing unit (CPU) provided in the mobile phone is also limited in its performance, so hand-held such as a mobile phone with a built-in camera and a personal digital assistant (PDA). There is still a need for a method for optimally encoding video in consideration of the performance of the CPU in the mobile terminal.

An object of the present invention is to provide a video encoding method for encoding a captured video in real time using a camera of a camera-equipped mobile terminal.

1A and 1B are a flowchart of a video encoding method of a camera-equipped mobile terminal according to an embodiment of the present invention.

2 is a block diagram illustrating a structure of a mobile terminal having a camera in which the encoding method of FIGS. 1A and 1B is performed.

3 is a view for explaining an encoding control process by a timer event in a video encoding method according to the present invention;

The video encoding method of the camera embedded mobile terminal according to the present invention for achieving the above technical problem is

(a) requesting a camera for information on resolutions and image types supported by the camera;

(b) obtaining information about a resolution and an image type supported by the camera from a camera;

(c) determining a setting value by searching for a value suitable for encoding based on information on a resolution and an image type supported by the camera;

(d) the camera hardware control module changing the setting value using the setting value; And

and (e) importing and encoding a video image input through a camera hardware control module according to a timer event of a predetermined time unit.

In addition, the predetermined time is preferably selected within 200 mSec to 400 mSec.

In addition, the step (a),

(a-1) requesting, by the video encoding module, the number of resolutions and image types supported by the camera;

(a-2) passing the number of resolutions and image types supported by the camera by the camera hardware control module; And

(a-3) the video encoding module allocates and transfers the memory to the control module as many as the number;

In step (b),

and (b-1) filling in the resolution value and image type information supported in the memory allocated in the step (a-3).

In addition, it is preferable that the video packet encoded by the method includes a time stamp, which is synchronization time information determined based on a timer value used at the time of audio encoding, for synchronization with an audio signal.

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

1A and 1B are flowcharts illustrating main steps of a video encoding method of a camera-equipped mobile terminal according to an embodiment of the present invention. 1A and 1B are often referenced below. FIG. 2 is a block diagram illustrating a structure of a mobile terminal having a camera in which the encoding method of FIGS. 1A and 1B is performed.

Referring to FIG. 2, control is performed by a control unit formed of an application-specific integrated circuit (hereinafter, referred to as an ASIC). The camera 202 outputs the video data expressed on the basis of color coordinates such as YCbCr to the application specific integrated circuit 204 and stored in the static random access memory (SRAM) 206 included in the ASIC 204. In the preview state, the input video data is displayed on the LCD 210. The video encoding unit 220 performs encoding on video data input through the camera 802.

1A and 1B, the main steps of configuring a video encoding method of a camera-equipped mobile terminal according to an embodiment of the present invention will be described. First, the video encoding module 223 requests a resolution and an image type supported by the camera 202 (step S102). For example, this can be done by calling a command such as Camera_GetCamOpt ().

Step S102 may be performed by the following substeps. That is, the video encoding module 223 requests the number of resolutions and image types supported by the camera 202. The camera hardware control module 205 transfers the number of resolutions and image types supported by the camera 202, and the video encoding module 223 allocates the memory to the control module and transfers the number of images to the control module. The camera hardware control module 205 fills in all the resolution values and the image type information supported by the allocated memory. Thus, the camera hardware control module 205 returns the resolution and image type supported by the camera (step S104).

Next, the video encoding module 223 selects a value suitable for video encoding from the return values, and requests to set the resolution and image type to the selected value (step S106). Selecting a value suitable for video encoding is determined in consideration of the performance of the mobile terminal CPU, the performance of the mobile terminal CPU to be transmitted after encoding, and the user's selection for image quality.

For example, if the image quality is not demanded, the resolution is lowered and the image is selected by selecting YUV rather than RGB as the image type. In addition, if the performance of the mobile terminal CPU is low, the resolution is selectively lowered to photograph, and YUV rather than RGB is selected as the image type to photograph. Such a setting request may be performed by calling a command such as Camera_SetCamOpt (). As an example, request to set the resolution to 112 x 96 pixels and the image type to RGB or YUV. The camera hardware control module sets the operation mode to the requested resolution and image type (step S108).

Next, the video encoding module 223 requests the currently set screen brightness and zoom value (step S110). The camera hardware control module 205 requests the screen brightness and the zoom value currently set in step S110, and the camera hardware control module 205 returns the currently set screen brightness and the zoom value (step S112).

Next, the video encoding module 223 changes the encoding setting value using the screen brightness and the zoom value returned in the presently set step S112 (step S114). For example, this can be done by calling a command such as Camera_SetCamOpt (). Next, the video encoding module 223 requests to turn on the camera power (step S116), and the camera hardware control module 205 runs the camera operation (step S118).

If the camera 202 is built-in, the camera hardware control module 205 spreads the image input through the camera to the LCD in the preview mode (step S120). However, when the camera is external, the camera receives a video request from the hardware control module 205 (step S130), and returns the video data input to the camera (step S132).

Now, in the present embodiment, the video encoding module 223 reads and encodes the video data returned from the camera in units of 300 mSec (step S134). The 300 mSec time unit is the most appropriate time considering the current level of camera resolution and the performance of the central processing unit such as the microprocessor in the mobile terminal. If you assign a timer event that reads video data to a time interval shorter than 200 mSec, the picture will look more natural, but audio data may be interrupted. If you assign a time interval longer than 400 mSec, the picture will look unnatural. Problems may arise. Therefore, the timer event for reading video data is preferably selected in the range of 200 mSec to 400 mSec.

The video encoding method of the camera-equipped mobile terminal according to the present invention as described above may be prepared by a computer program. The computer program is read and executed by a microcomputer provided in the camera-embedded mobile terminal, so that the video encoding method of the camera-embedded mobile terminal according to the present invention is performed to function as a video encoding module in the terminal.

3 is a diagram illustrating an encoding control process by a timer event in a video encoding method according to the present invention. Referring to FIG. 3, video encoding module 304 includes a header constructer 306. The encoded video packet preferably includes a time stamp, which is synchronization time information determined based on a timer value used at the time of audio encoding, for synchronization with an audio signal. The time stamp may be set based on the timer value 308 at the vocoder side. In the present embodiment, video encoding is initiated by a timer event 302 from an operating system (O / S) every 300 mSec and a timer event if the encoding of an image frame from a camera takes a long time. Is caused by a delay.

The video encoding method of the camera-embedded mobile terminal is a handheld that has a lot of restrictions on the performance of the central processing unit such as a mobile phone and a personal digital assistant (PDA) and transmits based on wireless having a poor transmission environment. In the field of hand-held based mobile terminals, there is an advantage in that the video can be efficiently encoded using a current-level CPU. In addition, according to the video encoding method as described above, the encoded video may maintain a frame rate of about 3 frames per second.

The above embodiments are illustrative for the purpose of understanding the present invention and various modifications and variations are possible within the scope of the invention as defined by the appended claims. Therefore, the scope of rights of the video encoding method of the camera-equipped cellular phone according to the present invention is not limited to the above embodiment.

As described above, the video encoding method of the camera-equipped mobile terminal according to the present invention has a lot of restrictions on the performance of the central processing unit such as a mobile phone and a personal digital assistant (PDA), and transmits based on wireless having a poor transmission environment. In this hand-held based mobile terminal field, there is an advantage in that the video can be efficiently encoded using a current-level CPU. In addition, according to the video encoding method as described above, the encoded video may maintain a frame rate of about 3 frames per second.

Claims (4)

In a method of encoding a video input through the camera in a mobile terminal having a camera, (a) requesting a camera for information on resolutions and image types supported by the camera; (b) obtaining information about a resolution and an image type supported by the camera from a camera; (c) determining a setting value by searching for a value suitable for encoding based on information on a resolution and an image type supported by the camera; (d) the camera hardware control module changing the setting value using the setting value; And and (e) retrieving and encoding a video image input through a camera hardware control module according to a timer event of a predetermined time unit. The method of claim 1, wherein the predetermined time is, A video encoding method of a camera embedded mobile terminal, characterized in that selected from 200 mSec to 400 mSec. According to claim 1, wherein the step (a), (a-1) requesting, by the video encoding module, the number of resolutions and image types supported by the camera; (a-2) passing the number of resolutions and image types supported by the camera by the camera hardware control module; And (a-3) the video encoding module allocates and transfers the memory to the control module as many as the number; In step (b), and (b-1) filling in the resolution value and the image type information supported in the memory allocated in the step (a-3). The method of claim 1, The encoded video packet includes a time stamp, which is synchronization time information determined based on a timer value used in audio encoding, for synchronization with an audio signal, in a header field.