1. Field of the Invention
The present invention relates to an image processing method and an image displaying system, and more particularly, to an image processing method and an image displaying system capable of avoiding degrading two-dimensional (2D) image resolution of the image frame.
2. Description of the Prior Art
Web TV combines functions of network information communication and multimedia displaying. Through the Web TV, users can simultaneously acquire numerous and the latest videos and the network information. Therefore, the users can enjoy the desired videos as they want and are not limited to access videos via a broadcasting TV or a CD storage device.
Generally, a client end of the Web TV utilizes an image receiving device for receiving image data from the content provider. The image receiving device converts the received image data to displaying signals conformed to the displaying device, for displaying the image. Due to the diversity of the applications of the Web TV, the image data generally include various types of image, such as Web page, Graphical User Interface (GUI), On Screen Display (OSD) and video. For example, if the client end wants to watch a video on a certain Web page and the video is displayed in a small window of a multimedia player software, the image frame viewed by the user includes a web page image and a video image. After the image receiving device of the client receives related image data of the Web page image and the video image, the image receiving device would execute overlay processing on the Web page image and the video image for combining the image frame. Meanwhile, the image receiving device also converts the image frame to signals capable of displaying by the displaying device, so as to display the image frame on the displaying device. When the image frame includes a three-dimensional (3D) image, the image receiving device of the client has to convert the received image data according to 3D image format for generating 3D image signal in corresponding image format. As such, the image displayed on the displaying device can provide images with 3D effect to the user.
For example, please refer to
However, the converting of the side-by-side image format would halve the resolution of images. In other words, the horizontal resolution of images is halved. For the Web page image S_2D belonging to the 2D image, half of the resolution is sacrificed. In such a condition, although the user can see the video image S_3D with 3D effect, the displayed Web page image would be distorted because the resolution of the Web page image is halved, such that the quality of displaying is degraded.
Therefore, the present invention provides an image processing method and an image displaying system to fix the issue of decreasing the 2D image resolution in the image frame.
The present invention discloses an image processing method. The image processing method includes receiving image data of an image frame and dividing the image data into first image data related to 2D images and second image data related to 3D images; converting the first image data to 2D image data according to a 2D format and converting the second image data to 3D image data according to a 3D format; and outputting the 2D image data and the 3D image data, for displaying the image frame.
The present invention further discloses an image displaying system. The image displaying device includes a determining unit, for receiving image data of an image frame and dividing the image data into first image data related to 2D images and second image data related to 3D images; a format converting unit, for converting the first image data to a 2D image data according to a 2D image format and converting the second image data to a 3D image data according to a 3D image format; and an image outputting unit, for converting the 2D image data and the 3D image data to 2D displaying image and a 3D displaying image, respectively, according to a displaying type.
These and other objectives of the present invention will no doubt become obvious to those of ordinary skill in the art after reading the following detailed description of the preferred embodiment that is illustrated in the various figures and drawings.
Please refer to
In brief, after the image displaying system 20 receives the image data transmitted by the transmitting end, the determining unit 202 distinguishes the image data belonging to the 2D images and the image data belonging to the 3D images. Then, the format converting unit 204 performs format conversion on the image data according to corresponding image transmitting format. As a result, the 3D images would have 3D effect and the 2D images would keep the original resolution, so as to avoid image distortion due to the halved resolution.
On the other hand, the determining unit 202 further determines a displaying position P1 corresponding to the first image data S1 and a displaying position P2 corresponding to the second image data S2. For example, please refer to
In this embodiment, the user can use image displaying system 20 for processing the received image data, to prevent the resolution of 2D images from being degraded and to achieve excellent displaying quality. For example, please refer to
Next, the image outputting unit 206 converts the 2D image data S1_2D and the 3D image data S2_3D to the corresponding 2D displaying image S_2D and the corresponding 3D displaying image S_3D, respectively, according to the displaying type of the displaying monitor 208. If the displaying monitor 208 is the shutter glasses type display, the image outputting unit 206 would extend the 3D image data S2_3DL and S2_3DR twice in horizontal direction (i.e. enlarge the 3D image data S2_3DL and S2_3DR twice in horizontal direction), for generating the corresponding 3D displaying images S_3DL and S_3DR (i.e. the 3D displaying image S_3D includes the 3D displaying images S_3DL and S_3DR). Meanwhile, the image outputting unit 206 converts the 2D image data S1_2D to the corresponding 2D displaying image S_2D, which includes a 2D displaying image S_2DL and a 2D displaying image S_2DR. The 2D displaying image S_2DL and the 2D displaying image S 2DR are the left-eye image data and the right-eye image data, respectively. Also, the 3D displaying images S_3DL and S_3DR are respectively the left-eye image data and the right-eye image data. Since the 2D image data S1_2D is not divided, the resolution of the 2D displaying image S_2D remains the same. Finally, the image outputting unit 206 provides the 3D displaying image S_3DL, the 3D displaying image S_3DR, the 2D displaying image S_2DL and the 2D displaying image S_2DR to the displaying monitor 208, for displaying the image frame F through alternately displaying the left-eye image data and the right-eye image data. Similarly, if the displaying type of the displaying monitor 208 is patterned retarder type display, the image outputting unit 206 extends the 3D image data S2_3DL and S2_3DR twice in the horizontal direction (i.e. enlarge the 3D image data S2_3DL and S2_3DR twice in the horizontal direction) and shrink the 3D image data S2_3DL and S2_3DR twice in the vertical direction. Then, the image outputting unit 206 performs line-by-line interleave on the 3D image data S2_3DL and S2_3DR, for generating the corresponding 3D displaying images S_3DL and S_3DR (i.e. the 3D displaying image S_3D includes the 3D displaying images S_3DL and S_3DR).
Please refer to
Similarly, the image outputting unit 206 converts the 2D image data S1_2D and the 3D image data S2_3D to the corresponding 2D displaying image S_2D and the corresponding 3D displaying image S_3D, respectively, according to the displaying type of the displaying monitor 208. If the displaying monitor 208 is the shutter glasses type display, the image outputting unit 206 would extends the 3D image data S2_3DL and S2_3DR twice in vertical direction (i.e. enlarge the 3D image data S2_3DL and S2_3DR twice in vertical direction), for generating the corresponding 3D displaying images S_3DL and S_3DR (i.e. the 3D displaying image S_3D). Meanwhile, the image outputting unit 206 converts the 2D image data S1_2D to the corresponding 2D displaying image S_2D, which includes 2D displaying images S_2DL and S_2DR. The 2D displaying images S_2DL and S_2DR are the left-eye image data and the right-eye image data, respectively. Also, the 3D displaying images S_3DL and S_3DR are respectively the left-eye image data and the right-eye image data. Since the 2D image data S1_2D is not divided, the resolution of the 2D displaying image S_2D remains the same. Finally, the image outputting unit 206 provides the 3D displaying image S_3DL, the 3D displaying image S_3DR, the 2D displaying image S_2DL and the 2D displaying image S_2DR to the displaying monitor 208, for displaying the image frame F through alternately displaying the left-eye image data and the right-eye image data. Similarly, if the displaying type of the displaying monitor 208 is patterned retarder type display, the image outputting unit 206 extends the 3D image data S2_3DL and S2_3DR twice in the vertical direction (i.e. enlarge the 3D image data S2_3DL and S2_3DR twice in the vertical direction) and shrink the 3D image data S2_3DL and S2_3DR twice in the horizontal direction. Then, the image outputting unit 206 performs line-by-line interleave on the 3D image data S2_3DL and S2_3DR, for generating the corresponding 3D displaying images S_3DL and S_3DR (i.e. the 3D displaying image S_3D includes the 3D displaying images S_3DL and S_3DR). In brief, the image displaying system 20 can distinguish the 2D images and the 3D images and can convert the 2D images and the 3D images according to the image transmitting format. As a result, the 2D images and the 3D images of the image frame F can be displayed without distortion, so as to avoid degrading the resolution of the 2D images in the image frame.
Noticeably, the embodiment shown in
To sum up, the image display system of the present invention can distinguish the 2D images and the 3D images of the image frame transmitted by the transmitting end, and can convert the image data according to corresponding image transmitting format. As a result, the 3D images would have 3D effect and the resolution of the 2D images would remain the same. Therefore, the distortion caused by the halved resolution is effectively avoided.
Those skilled in the art will readily observe that numerous modifications and alterations of the device and method may be made while retaining the teachings of the invention. Accordingly, the above disclosure should be construed as limited only by the metes and bounds of the appended claims.
Number | Date | Country | Kind |
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201210263915.2 | Jul 2012 | CN | national |