KR20050030254A - Image processing method - Google Patents

Abstract

An image processing method is provided to properly apply color weight on foreground and background images by using an alpha map having regular brightness, thereby harmonically displaying the foreground image on the background image. Transparency of an alpha map is decided according to each pixel transparency of a foreground image or a background image. Color weight is applied to each pixel comprising the background image by using the alpha map. Color weight is applied to each pixel comprising the foreground image by using the alpha map. The foreground image is composed on the background image.

Description

Image processing method {IMAGE PROCESSING METHOD}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image processing method for processing pixels of images to be displayed on a display panel of a terminal. In particular, the background and the foreground are naturally made by sharing the same pixel using an alpha map for the foreground image and the background image. An image processing method of a display panel configured to match.

With the development of the electronic communication industry, portable wireless terminals are becoming smaller and thinner, and their functions are becoming more diverse. In addition, terminals having various configurations are being released to meet various needs of users. For example, speaker devices capable of implementing melody of various chords are being installed, and color display devices ranging from tens of thousands to hundreds of thousands of pixels are being implemented, and the situation is racing to further develop such functions. In addition, the portable wireless terminal has been introduced with a variety of functions corresponding to the above-described high-definition color display device, for example, for video communication, for use as a digital camera or a camcorder (camcoder) An optical imaging device such as a small lens assembly may be provided in the terminal.

In particular, the color display device described above is racing to meet the needs of users with an increasing number of pixels and sophisticated image processing.

1 is a block diagram showing the configuration of a general mobile communication terminal 7.

Referring to FIG. 1, the control unit (MPU: Micro-processor unit) 300 controls the overall operation of the mobile terminal. For example, it performs processing and control for voice call and data communication, and processes operations for transmitting separate icons or picture files together when transmitting a short message according to the present invention in addition to the usual functions. Therefore, in the following description, description about the process and control of the normal control part 300 is abbreviate | omitted.

The read only memory (ROM) 302 stores microcode and various reference data of a program for processing and controlling the controller 300. Random Access Memory (RAM) 304 is a working memory of the controller 300. Stores temporary data generated during the execution of various programs. Flash ROM 306 stores various updatable storage data such as a phone book.

Key pad device 308 includes numeric keys 0-9, menu, text transfer, call (TALK), clear (CLR), end (END), confirm, *, #, scroll keys ( And a plurality of function keys such as an UP / DOWN key, and provide key input data corresponding to a key pressed by the user to the controller 300. The display 310 displays status information generated during the operation of the mobile communication terminal, a limited number of characters, a large amount of video and still images, and the like. The display unit 300 may preferably use a liquid crystal display module (LCD module).

Although not shown, the display unit 300 may include a receiving means for receiving a signal representing an image to be displayed, and an image processing unit for processing the received image. Furthermore, it has a display panel which is a color LCD module as described above.

On the other hand, the codec (Coder-Decoder) 312 connected to the control unit 300, the speaker 316 and the microphone 314 connected to the codec 312 is a voice input and output used for phone calls and voice recording It is a block. The codec 312 converts the PCM data provided from the control unit 300 into an analog voice signal, transmits the same through the speaker 316, and converts the voice signal received through the microphone 314 into PCM data. Provided to the controller 300.

In addition, the radio frequency unit (RF) 320 lowers the radio frequency signal received through the antenna 318 to the baseband processor 322, and provides the baseband signal from the baseband processor 322. The frequency is raised and transmitted through the antenna 318. The baseband processor 322 processes the baseband signal transmitted and received between the RF unit 320 and the control unit 300. For example, in case of transmission, channel coding and spreading of data to be transmitted are performed, and in case of reception, despreading and channel decoding of a received signal are performed. . That is, the baseband processor 322 is a block for demodulating various channels (calling channel, traffic channel, etc.) received from the base station or generating various channels (access channel, traffic channel, etc.) transmitted to the base station.

FIG. 2 is a diagram illustrating a process for foreground processing according to a background according to the prior art, and illustrates positions of pixels when a foreground image is displayed on a background image.

As shown in FIG. 2, in order to calculate the color of the pixel corresponding to A 'of the terminal screen, the color at A of the foreground image is checked, and if it is a specific color (here, white), it corresponds to A of the background image at A'. The color is displayed on the terminal screen. Therefore, the background of A 'of the terminal screen is transparently displayed in the foreground. Similarly, to calculate the color in C ', we check the color of C in the foreground and display the color in C in the foreground on the terminal screen because it is not a specific color. That is, C of the background image is not displayed on C 'of the terminal, but C of the foreground image is displayed.

However, the image processing method as described above is inconsistent when displaying an image because the background is covered by the foreground, which causes a problem of rejection to the user. Alternatively, the image is roughly displayed because it is the edge of the foreground image, or the background image is pre-painted on the foreground image, which is not suitable for use with other background colors.

SUMMARY OF THE INVENTION An object of the present invention is to provide an image processing method configured to harmoniously display a foreground image on a background image.

Another object of the present invention is to provide an image processing method configured to respond to a user's preference by appropriately applying (weighting) weights to a foreground image and a background image using an alpha map having a predetermined brightness.

In order to solve the above object, the present invention provides a method for displaying a foreground image on a background image, the process of determining the transparency of the alpha map according to the transparency of each pixel of the foreground image or background image And applying a color weight to each of the pixels constituting the background image using the alphamap, and applying a color weight to each of the pixels constituting the foreground image using the alphamap. And synthesizing the foreground image on the background image.

3 is a diagram illustrating a process for foreground processing according to a background according to the present invention. Although only some pixels are illustrated, it is obvious that this is applied to the entire background image and the foreground image displayed on the display device of the terminal.

As shown in FIG. 3, the image processing method according to the present invention adjusts the degree of mixing the color of a specific pixel of a background image with the color of a corresponding pixel of a foreground image by using a black and white image called an alpha map and displays it on the terminal screen. .

An alpha map is called a set of transmittance signals. For example, in MPEG-4, the transmittance signal is represented by 8 bits from 0 to 255, which means 0 is transparent and 255 is opaque, and has a one-to-one correspondence with each pixel of the luminance signal. However, as defined, 0 may be opaque, 255 may be transparent, and may be expressed as a black and white image by expressing values such as 0-4 or 0-8.

As shown in FIG. 3, since the color value of the alphamap corresponding to A pixel is 255, the color of the background is used as it is, and the pixel corresponding to C is used in the foreground rather than the background because the color value of the alphamap is close to 0. Reflects more of the color.

If the image shown as above is expressed by a formula, the color value in a specific pixel of the terminal is A ', the color value in the background image is Ab, the color value in the foreground is Af, and the color value in the alpha map is α. A 'is

A '= Ab * α + Af * (1-α), where α is a value between 0 and 1

Can be represented as: Various effects can be obtained by changing the values of α and (1-α) to (1-α) and α. That is, the transparency of the alphamap may be determined according to the transparency of the foreground image, and thus the transparency of the alphamap applied to the background image may be determined. On the contrary, the transparency of the alphamap may be determined according to the transparency of the background image. You can also determine the transparency of the alphamap applied to the foreground image.

Apparently, there are many ways to modify these embodiments while remaining within the scope of the claims. In other words, there may be many other ways in which the invention may be practiced without departing from the scope of the following claims.

According to the present invention, the images represented by the terminal may be naturally expressed from the background even if they are produced separately from the background, and the expression of the edge of the image used as the foreground may be more natural than the conventional method.

1 is a block diagram showing the configuration of a general mobile communication terminal;

2 is a view showing a process for foreground processing according to the background according to the prior art;

3 is a diagram illustrating a process for foreground processing according to the background according to the present invention;

Claims (2)

A method for displaying a foreground image on a background image, Determining transparency of the alphamap according to the transparency of each pixel of the foreground image or the background image, Applying a color weight to each of the pixels constituting the background image using the alpha map; Applying a color weight to each of the pixels constituting the foreground image using the alphamap; and And synthesizing a foreground image on the background image. The method of claim 1, And the sum of the transparency of the alphamap applied to the transparency of the alphamap determined according to the transparency of the foreground image or the background image is one.