KR101798522B1 - Digital Multimedia Broadcasting device, its quality improvement method - Google Patents

Abstract

The present invention relates to a DMB device which includes: a receiving unit for receiving broadcast information; an image processing unit for outputting an image signal by adjusting an image quality characteristic of an image included in the received broadcast information; and a display unit for receiving and displaying the outputted broadcast image signal. The image processing unit performs first image processing in the image included in the received broadcast information using a soft-decision adaptive interpolation (SAI) method, detects a high frequency component in the image in which the first image processing is performed, and performs second image processing corresponding to the detected high frequency component. Accordingly, the present invention can display a DMB image with high quality.

Description

[0001] The present invention relates to a digital multimedia broadcasting (DMB) device,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a DMB device, a method for improving the image quality, and a DMB device for improving the image quality of a displayed image on a DMB-enabled terminal.

Due to the rapid development of technology, TV viewing in current and future vehicles is becoming almost generalized. TV viewing in a vehicle receives radio waves using a vehicle antenna using almost mobile terrestrial or satellite signals, and the received radio waves are viewed by the passengers of the vehicle through the display unit of the vehicle's AVN system.

Recently, with the digitization of broadcasting system and broadcasting standard, much of the technology and image quality of codec is changing. In the current broadcasting system, for example, in the case of the domestic TDMB, a video image having a size of 320 * 240 (clarity based on a 2.3 inch display unit) is transmitted.

However, since the size of the display portion in the vehicle has been enlarged from 3.4 inches (portable terminal standard) to 7 inches (vehicle navigation), 8 inches, and 9.2 inches, the conventional 320 * 240 image is displayed on the enlarged display portion , Deterioration of image quality occurs.

Accordingly, in the case of a technology for providing a high-quality service by increasing the bit rate, there is a linear interpolation method as a representative example of the image interpolation methods and services for viewing in HD high image quality supported by the portable terminal at present, Various image interpolation methods are under development.

Therefore, technologies for providing high-quality DMB services should be developed.

Open Patent Publication No. 10-2008-0043624 (2008. 05. 19.)

The present invention relates to a DMB device for detecting an error of an image corresponding to received broadcast information, correcting the image and displaying the corrected image, and a method for improving the image quality of the DMB device, The purpose is to provide.

The present invention relates to a broadcast receiving apparatus, An image processor for adjusting an image quality characteristic of an image included in the received broadcast information and outputting a video signal; And a display unit for receiving and displaying the output image signal, wherein the image processing unit performs a first image processing using an SAI (Soft-decision Adaptive Interpolation) interpolation method on an image included in the received broadcast information Detects a high frequency component in the first image processed image, and performs a second image process corresponding to the detected high frequency component.

The image processor may filter an edge portion of the image included in the received broadcast information to separate an image boundary and detect an error.

The image processor may detect an error of a high frequency component through a discrete cosine transform (DCT) on the filtered edge portion.

The image processor may perform a second image process on an area of the image where an error is detected.

The second image processing may correct the image through linear interpolation on the image included in the received broadcast information, and may output the synthesized image with the first image processed image.

The second image processing may output an image corrected through linear interpolation in an image included in the received broadcast information.

The image signal output from the image signal synthesized with the first image processed image or the image corrected by the second image processing may be transmitted to the display unit.

According to another aspect of the present invention, Adjusting an image quality characteristic of an image included in the received broadcast information and outputting a video signal; Receiving and displaying the output image signal; Performing a first image processing using an SAI interpolation method on an image included in the received broadcast information; And detecting a high frequency component in the first image processed image and performing a second image processing corresponding to the detected high frequency component.

The step of performing the first image processing may further include filtering an edge portion of the image included in the received broadcast information, separating the boundary of the image, and detecting an error.

The step of performing the first image processing may further include detecting an error of a high frequency component through a discrete cosine transform (DCT) on the filtered edge portion.

The step of performing the second image processing may further include a step of correcting the image included in the received broadcast information through linear interpolation and synthesizing the corrected image with the first image processed image and outputting the synthesized image can do.

The step of performing the second image processing may further include the step of outputting a corrected image through linear interpolation in an image included in the received broadcast information.

And receiving and displaying a video signal output from any one of a video signal synthesized with the first video processed video and an video signal output from the second video processing.

A DMB device and its image quality improving method according to the present invention includes filtering an edge part of an image included in broadcast information, detecting an image error, and correcting an image in which an error is detected, thereby obtaining a high quality DMB image There is an effect that can be displayed.

1 is a block diagram schematically showing a DMB device according to the present invention.
2 is a flowchart illustrating a flow of an image quality improvement method according to the present invention.
3 is a diagram illustrating filtering of an edge part of a DMB image according to the present invention.
4 is a diagram illustrating a discrete cosine transform (DCT) according to the present invention.
FIG. 5 is a diagram illustrating an image to which a SAI (Soft-decision Adaptive Interpolation) interpolation method is applied according to the present invention.
6 is a diagram illustrating an image to which a linear interpolation method of a DMB image according to the present invention is applied.
FIG. 7 is a view illustrating an image obtained by combining the DMB images of FIG. 5 and FIG.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. It should be noted that the drawings denoted by the same reference numerals in the drawings denote the same reference numerals whenever possible, in other drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. And certain features shown in the drawings are to be enlarged or reduced or simplified for ease of explanation, and the drawings and their components are not necessarily drawn to scale. However, those skilled in the art will readily understand these details.

In addition, in the conventional DMB system, the image of 320 * 240 size of DMB image is developed and transmitted as a small portable mobile device of 2.3 inches, The deterioration of image quality and the sharpness are remarkably reduced.

Accordingly, in order to improve the reproducibility through image sharpness and image error detection as the size of the LCD for a vehicle increases, and to realize the best image quality according to the DMB viewing environment in a vehicle, the following system configuration and S / W algorithm to provide the best picture quality, and a method for improving the picture quality.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a DMB device and its image quality improving method of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram schematically showing a DMB device according to the present invention, FIG. 2 is a flowchart illustrating a flow of a method for improving image quality according to an embodiment of the present invention, FIG. FIG. 4 is a diagram illustrating a discrete cosine transform (DCT) according to an embodiment of the present invention. FIG. 5 is a diagram illustrating an image obtained by applying a Soft-decision Adaptive Interpolation (SAI) FIG. 6 is a diagram illustrating an image to which a linear interpolation method of a DMB image according to the present invention is applied, and FIG. 7 is a diagram illustrating an image in which DMB images of FIGS. 5 and 6 are synthesized.

As shown in FIG. 1, the DMB device 100 includes a receiving unit 110, an image processing unit 120, and a display unit 130.

The receiver 110 is a device for receiving multi-channel DMB broadcasts through an antenna.

Here, the multi-channel DMB broadcasting may be terrestrial broadcasting or satellite broadcasting.

The receiver 110 may transmit the received multi-channel DMB broadcasts to the image processor 120.

The image processing unit 120 may adjust image quality characteristics of an image included in the received broadcast information and output an image signal.

For example, the image processing unit 120 may output a primary enhanced image in accordance with an image processing algorithm (hardwired image processing) composed of hardware on a tuned (selected) DMB image.

Here, the DMB image is an image encoded (encoded) on the basis of H.264 having a resolution of 320 * 240 that is standardized on a portable terminal at 2.3 inches, and a DMB image of a resolution (320 * 240) It is possible to perform processing such that deterioration of image quality and sharpness do not deteriorate irrespective of the size of the unit 130.

Also, the image processing unit 120 may output the improved DMB image, which is further improved according to the image quality improvement algorithm.

The image processing unit 120 may perform a first image process on a DMB original image received from the receiving unit 110 using SAI (Soft-decision Adaptive Interpolation) interpolation.

Here, the SAI interpolation may provide a clearer DMB image to the display unit 130 than a natural image in the DMB image (e.g., an image in which an actual object or the like is captured).

3, in order to perform error detection on the first image-processed DMB image, the image processing unit 120 separates the boundary of the DMB image by filtering the edge portion of the DMB image, An error can be detected.

3, in order to detect an error, the image processing unit 120 separates the DMB image (right) corresponding to the edge portion of the first image-processed DMB image (left) An error of the boundary of the DMB image can be detected.

Then, the image processing unit 120 may perform high frequency component detection to detect an error partially occurring in the first image-processed DMB image.

As shown in FIG. 4, the image processing unit 120 may detect an error of a high frequency (AC) component of the first image-processed DMB image through a discrete cosine transform (DCT).

Here, the discrete cosine transform (DCT) may be a technique of compressing an image using a frame corresponding to the first image-processed DMB image.

4, the image processing unit 120 converts the first image-processed DMB image from a spatial domain to a frequency domain through the DCT, The frequency domain in the region of the first image-processed DMB image can be confirmed.

For example, when the 8 * 8 block of a specific area of the first image-processed DMB image is converted, the discrete cosine transform (DCT) of the 64-pixel corresponding to the 8 * ), And when there is a change in color (a change in hue according to the area in which the above-described error is detected), the area of the high frequency AC can be confirmed.

Accordingly, when the high frequency (AC) region of the first image-processed DMB image exists through the DCT, the image processing unit 120 applies a high frequency (AC) component to the first image- The second image processing corresponding to the second image processing can be performed.

In another embodiment, when the high frequency (AC) region of the first image processed DMB image does not exist, the image processing unit 120 outputs the first image processed DMB image to the display unit 130 can do.

The image processing unit 120 may perform the second image processing corresponding to a high frequency (AC) component to the first image-processed DMB image.

Here, the second image processing may correct the image through linear interpolation on the DMB original image received from the receiver 110, and may synthesize the corrected DMB image with the first image processed image have.

That is, the image processing unit 120 may output the corrected DMB image through the second image processing to the display unit 130 or may output the first image-processed DMB image to the display unit 130 have.

5 to 7, the image processing unit 120 performs a first image processing on a first image-processed image using a SAI (Soft-decision Adaptive Interpolation) interpolation method on a DMB original image received from the receiving unit 110, And combines the error of the high frequency (AC) component with the corrected image through the second image processing, that is, the linear interpolation, on the DMB original image, and outputs the combined DMB image to the display unit 130 .

5, the natural image in the first image-processed DMB image from the image processing unit 120 does not detect an error (e) of a high frequency (AC) component, but an artificially generated image (e.g., ), It is confirmed that an error (e) of a high frequency (AC) component is detected.

Referring to FIG. 6, an error (e) of a high-frequency (AC) component is not detected in the artificially generated image of the second image-processed DMB image from the image processing unit 120, (E) of the AC component is detected.

Accordingly, referring to FIG. 7, the image processing unit 120 may perform the second image processing corresponding to a high frequency (AC) component in the first image-processed DMB image.

Accordingly, the image processing unit 120 corrects the image by linear interpolation on the DMB original image received from the receiver 110, and combines the corrected DMB image with the first image-processed image , And output the improved image quality improvement image (I).

The 'DMB image quality improvement method' according to the DMB device 100 having the above-described configuration will be described in detail.

2, the DMB device 100 may receive a DMB image received from the receiving unit 110. In operation S200,

The DMB device 100 may perform first image processing using a soft-decision adaptive interpolation (SAI) interpolation method on the received DMB image (S210)

In order to perform error detection on the first image-processed DMB image, the DMB device 100 may filter the edge portion of the DMB image and detect an error by separating the boundary of the DMB image. S220)

The DMB device 100 can detect an error of a high frequency (AC) component of the first image-processed DMB image through a discrete cosine transform (DCT) (S230)

The DMB device 100 corrects the image by performing linear interpolation on the DMB image received from the receiver 110 corresponding to a high frequency (AC) component to the first image-processed DMB image, The second image processing can be performed with the corrected image (S240)

The DMB device 100 may perform a second image process of combining the corrected DMB image with the first image processed image (S250)

The DMB device 100 may output the corrected DMB image through the second image processing to the display unit 130 or may output the DMB image subjected to the first image processing to the display unit 130. [ (S260)

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, . ≪ / RTI > Accordingly, such modifications are deemed to be within the scope of the present invention, and the scope of the present invention should be determined by the following claims.

100: DMB device 110: Receiver
120: Image processor 130:

Claims (13)

A receiving unit for receiving broadcast information;
An image processor for adjusting an image quality characteristic of an image included in the received broadcast information and outputting a video signal; And
And a display unit for receiving and displaying the output video signal,
The image processing unit performs a first image processing using SAI (Soft-decision Adaptive Interpolation) interpolation in the entire region of the image included in the received broadcast information,
A second image processing unit that detects a high frequency component in the first image processed image and performs a second image processing on the image region generated by artificiality corresponding to the detected high frequency component using a linear interpolation method,
Wherein the image processing unit comprises:
And outputs the first image processed image through the display unit when a high frequency component is not detected in the first image processed image. The method according to claim 1,
Wherein the image processing unit comprises:
Wherein an edge portion of an entire region of an image included in the received broadcast information is filtered to separate an image boundary and detect an error. The method of claim 2,
Wherein the image processing unit comprises:
And detects an error of a high frequency component through discrete cosine transform (DCT) on the filtered edge portion. The method of claim 3,
Wherein the image processing unit comprises:
And performs a second image processing on an area of the image where an error is detected. The method of claim 4,
Wherein the second image processing includes:
And corrects the image by linear interpolation on the image included in the received broadcast information, and combines the corrected image with the first image processed image, and outputs the synthesized image. The method of claim 4,
Wherein the second image processing includes:
And outputs the corrected image through linear interpolation in an image included in the received broadcast information. The method according to claim 1,
Wherein the image processing unit comprises:
And transmits the synthesized video signal to the display unit, wherein the display unit synthesizes the first video-processed video and the second video-processed video. Receiving broadcast information;
Adjusting an image quality characteristic of an image included in the received broadcast information and outputting a video signal;
Receiving and displaying the output image signal;
Performing a first image processing using SAI interpolation in an entire region of an image included in the received broadcast information; And
A second image processing is performed on the image region generated by the artifact corresponding to the detected high frequency component by linear interpolation when the high frequency component is detected in the first image processed image,
Outputting the first image processed image through a display unit when a high frequency component is not detected in the first image processed image;
The method comprising the steps of: The method of claim 8,
The step of performing the first image processing may include:
Filtering an edge portion of an entire region of an image included in the received broadcast information to separate an image boundary and detecting an error;
Further comprising the steps of: The method of claim 9,
The step of performing the first image processing may include:
Detecting an error of a high-frequency component through a discrete cosine transform (DCT) on the filtered edge portion;
Further comprising the steps of: The method of claim 8,
The step of performing the second image processing may include:
Correcting an image included in the received broadcast information through linear interpolation, combining the corrected image with the first image processed image, and outputting the synthesized image;
Further comprising the steps of: The method of claim 11,
The step of performing the second image processing may include:
Outputting a corrected image through a linear interpolation in an image included in the received broadcast information;
Further comprising the steps of: 9. The method of claim 8,
Receiving and displaying the first image processed image and the second image processed image;
Further comprising the steps of:

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