KR0132843B1 - Image Quality Correction Device of Digital Imaging System - Google Patents

Abstract

The present invention relates to an image quality correcting apparatus of a digital video system for improving image quality of an input video signal, comprising: corner enhancement means for amplifying a high frequency component of an input video signal to generate an edge emphasis signal; And a smoothing means for outputting the edge emphasis signal if the edge emphasis signal is larger than a predetermined reference value, otherwise outputting a cree signal to emphasize low frequency components of the input video signal. According to the present invention, the edge emphasis processing for amplifying high frequency components of a video signal and the smoothing processing for smoothing an image by emphasizing the low frequency components of the video signal are simultaneously performed, so that a clearer and smoother image can be obtained, thereby improving the image quality of the printer. There is an advantage to this.

Description

Image Quality Correction Device of Digital Imaging System

1 is a block diagram of a conventional image quality correction apparatus

2 is a block diagram of the image quality correction apparatus according to the present invention.

3 is a block diagram of an embodiment of an image quality correction apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

21: signal delay part 22: second derivative

23 scaler 24 smoothing part

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digital video system such as a color video printer, and more particularly, to an image quality correcting apparatus of a digital video system for improving image quality using an image filtering technique on an input video signal. will be. FIG. 1 is a block diagram of a conventional image quality compensator, which is composed of a signal delay unit 11 and a second differentiator 12, and is a lapra that performs only a kernel operation for emphasizing an edge of an input video signal. The device uses the Laplacian Edge Enhancement technique. The kernel operation is a widely used technique in digital signal processing. The process for constructing a two-dimensional digital image mainly uses a matrix arithmetic technique, so that the second derivative can be expressed in one-dimensional approximation. Can be induced.

For example, an approximation of the two-dimensional Laplacian equation is derived as follows.

Expressed in matrix form, the basic Laplacian kernel is expressed as

The most commonly known convolution kernels are:

In the conventional Laplacian edge emphasis, since only the weighting factor inside the kernel is changed, the image quality is degraded because the entire image is excessively emphasized or the parts requiring smoothing are difficult to process. In case of the device, there was a problem of lowering the image quality. Accordingly, an object of the present invention is to improve the image quality of a printer to improve the image quality of a printer by simultaneously processing edge smoothing to amplify a high frequency component of a video signal and a smoothing process to soften the image by emphasizing a low frequency component of the video signal. To provide. According to an aspect of the present invention, an apparatus for compensating an image quality of a digital image system includes: edge enhancement means for amplifying a high frequency component of an input image signal to generate an edge emphasis signal; And a smoothing means for outputting the edge emphasis signal when the edge emphasis signal is larger than a predetermined reference value, or otherwise outputting a cree signal to emphasize low frequency components of the input video signal.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. 2 is a block diagram of the image quality correction device of the printer according to the present invention, in order to emphasize the edge of the video signal, the second derivative 23 for detecting the edge signal of the video signal by second derivative of the input signal, It consists of a scaler 23 which amplifies the edge signal to a predetermined size, and generates an edge emphasis signal by detecting and emphasizing the edge signal from the video signal. The smoothing unit 24 for emphasizing the low frequency component of the video signal outputs an edge emphasis signal if the edge emphasis signal is larger than a predetermined reference value, and outputs a cree signal to output the low frequency component of the input video signal. Emphasize.

3 is a block diagram of an embodiment of an image quality correction apparatus according to the present invention. The kernel operation unit 31 performs kernel operation to amplify the high frequency components of the video signal, and includes line memories 311 and 312, D flip-flops 321 to 326, and amplifiers. 331 to 339, arithmetic operators 341 to 344, and the like, and detect edge values by the following matrix operation.

The line memories 311 and 312 temporarily store digital image data of one horizontal synchronization signal, latch them with the D flip flops 321 to 326, and the amplifiers 331 to 339 and the calculators 341 to 344. 3) matrix operation is performed by < RTI ID = 0.0 > The scaler 36 multiplies the input signal by a predetermined α, thereby further emphasizing the edge value calculated in the kernel operation. The scale factor α is an arbitrary value that can be selected by the user. The smoothing unit 37 compares the predetermined reference value 375 with the output signal 376 of the scaler 36 to a comparator 371 and a control signal 377 of the comparator, generating a control signal 377. And a multiplexer 372 for selecting whether to pass the output signal 376 of the scaler 36 or the clear 378, so that the output signal 376 of the scaler 36 If it is larger than the predetermined reference value 375, it is outputted. Otherwise, the output signal is creeped and smoothed. Experimentally in a color video printer, α of the scaler 36 has a value of about 0.1 to 0.4, and a reference value of the smoothing section 37 is made of a digital value of about 10 to 70. However, it is possible to experimentally determine the α of the scaler 36 and the reference value of the smoothing unit 37 in accordance with the printer apparatus to be applied or the input image signal. In addition, the image quality correction apparatus according to the present invention can be widely applied to a graphic or photo application. As described above, according to the present invention, a sharper and smoother image can be obtained by simultaneously performing edge enhancement processing for amplifying high frequency components of the image signal and smoothing process for smoothing the image by emphasizing low frequency components of the image signal. This has the advantage of improving image quality.

Claims (4)

Corner emphasis means for amplifying a high frequency component of an input video signal to generate an edge emphasis signal; And smoothing means for outputting the edge emphasis signal if the edge emphasis signal is larger than a predetermined reference value, otherwise outputting a cree signal to emphasize low frequency components of the input video signal. Compensator. The digital signal generator as claimed in claim 1, wherein the edge emphasis means detects an edge signal by a Laplacian edge enhancement technique and generates an edge emphasis signal by amplifying the detected edge signal at a predetermined ratio. Image quality correction device. The image quality correction apparatus of claim 2, wherein the predetermined ratio is variable. The image quality correction apparatus of claim 1, wherein the predetermined reference value is variable.