KR0178234B1 - Apparatus for grading a picture in an image encoder - Google Patents

Abstract

The present invention relates to an image quality evaluation apparatus of an encoder for evaluating the image quality state of an original image based on an edge point and a gradient between an original image and a reproduced image. In order to solve the problem, a number of distorted edge point values obtained by counter and A first comparator for providing a control signal based on a predetermined reference value TH1, a gradient calculator for calculating respective gradient values for the extended virtual edge points of the original video signal and the edge points of the reproduced video signal, and the calculated The playback image included in the extended virtual edge point based on the difference value calculation unit for obtaining a difference value between the gradient value of the extended virtual edge point and the edge point gradient value of the playback video signal, and the difference value by the difference value calculation unit. An edge point number counter unit for counting the number of edge points of the signal, the predetermined number of which is determined based on the counter value of the number of edge points and the preset reference value TH2 The demodulator comprises: a second comparison unit for providing a fish signal, and a logical product operation unit for calculating a control signal provided from the first and second comparison units and providing an information signal on whether or not to encode the original image again. By evaluating the image quality state of the original image before transmitting the image signal encoded by the C, the image having the poor image quality can be encoded again.

Description

Image quality evaluation device of video encoder

1 is a block diagram showing an image quality evaluation apparatus employed in a conventional video encoder.

2 is a block diagram showing an image quality evaluation apparatus of a video encoder according to the present invention.

3A to 3C are diagrams for explaining the operation of the image quality evaluation apparatus according to the present invention.

4 is a view for explaining an example of obtaining a gradient in the image quality evaluation apparatus according to the present invention of FIG.

* Explanation of symbols for main parts of the drawings

10: first edge detection unit 12: edge expansion unit

14: second edge detector 16: calculator

18: counter 20: first comparison

22: gradient calculator 24: difference calculator

26: number of edge points 28: second comparison

30: logical product operation unit

The present invention relates to an apparatus for evaluating the image quality of an image encoder, and more particularly, to an apparatus for evaluating the image quality of an image encoder based on a gradient (edge) between an original image and a reproduced image.

When a series of video signals are represented in digital form, a large amount of data must be transmitted, especially in a high-definition television (HDTV). A large amount of digital data is available because the available frequency range of the transmission channel used is limited. In order to transmit the data, it is necessary to reduce the amount by compressing the transmitted data.

At the same time, the image quality of the original image is evaluated according to the result of encoding the original image signal based on the edge points and the encoding result of the reproduced image based on the edge points. Once evaluated, the encoded original image is encoded again.

FIG. 1 is a block diagram showing a picture quality evaluation apparatus employed in a conventional video encoder, and FIGS. 3A to 3C are diagrams for explaining a state according to picture quality evaluation of a video encoding apparatus.

Referring to FIGS. 1 and 3, the edge component of the original image signal detected by the first edge detector 10 and the first edge detector 10 to detect the edge component of the input original image signal are described. An edge extender 12 that extends into virtual edge components at predetermined pixel units, and a second edge detector 14 that detects an edge component of an input video signal after the original video signal is reproduced after signal processing; And an operation unit 16 for performing an exclusive OR operation on the virtual edge component of the edge extension unit 12 and the edge component of the video signal reproduced by the second edge detector 14, and the operation result of the operation unit 16. A counter unit 18 for counting the error edge points detected according to the control unit, and outputting a predetermined control signal for encoding the original image again based on a comparison of the result value of the counter 18 and a preset reference value. do.

For example, a strong edge and a weak edge exist at edges that outline the image. In particular, a strong edge has a greater effect on human vision than a weak edge.

As described above, in the conventional image quality evaluation apparatus, the image quality cannot be evaluated more accurately by evaluating the image quality without considering the gradient (brightness or luminance information) signal capable of expressing the strong.

Accordingly, the present invention has been made to solve the above disadvantages, and an object of the present invention is to detect the degree of distortion of the original image based on the edge and the gradient between the original image and the reproduced image to evaluate the encoding state of the original image. To provide an image quality evaluation apparatus for a video encoder.

According to the present invention for achieving the above object, an image for evaluating the image quality state of the original image by counting the number of distorted edge points between the extended virtual edge points and the edge points of the playback video signal with respect to the original video signal In the image quality evaluation device of the encoder:

A first comparing unit 20 for providing a control signal for the distorted edge point based on the number of distorted edge points obtained by the counter and a preset reference value TH1; A gradient calculator (22) for obtaining respective gradient values for the extended virtual edge point of the original video signal and the edge point of the reproduced video signal; A difference value calculator (24) for calculating a difference value between the gradient value of the extended virtual edge point calculated by the gradient calculator (22) and the edge point gradient value of the reproduced video signal; An edge point number counter 26 for counting the number of edge points of a reproduced video signal included in the extended virtual edge point based on the difference value by the difference value calculation unit 24; A second comparing unit 28 which provides a predetermined control signal based on the number of edge points counted by the edge number counter 26 and a preset reference value TH2; An AND operation unit 30 for performing an AND operation on a predetermined control signal provided from each of the first and second comparison units 20 and 28 and providing an information signal on whether to encode the original image again. Characterized by including.

Hereinafter, the present invention will be described in detail with reference to the illustrated drawings.

2 is a block diagram showing an image quality evaluation apparatus of a video encoder according to the present invention.

Referring to FIG. 2, the apparatus for evaluating the image quality of an image encoder according to the present invention includes a device using a conventional edge point (corresponding to FIG. 1), a first comparator 20, a gradient calculator 22, and a difference. A value calculator 24, an edge point counter 26, a second comparator 28, and an AND product 30 are provided.

The first comparison unit 20 describes a predetermined control signal (1 or 0) based on the number of distorted edge points generated between the edge point of the original video signal and the edge point of the playback video signal and the preset reference value TH1. It is configured to provide to the logical product operation unit 30.

The gradient calculator 22 is configured to obtain the respective gradient values for the extended edge point of the original video signal and the edge point of the reproduced video signal and provide them to the difference value calculator 24 described later.

The difference value calculator 24 calculates a difference value between the gradient value of the extended virtual edge point calculated by the gradient calculator 22 and the gradient value of the reproduced video signal to the number of edge points counter 26 to be described later. It is configured to be provided.

The number of edge points counter section 26 counts the number of the edge points of the reproduced video signal included in the extended virtual edge points based on the difference values by the difference value calculation section 24 to compare the second comparison unit (described later). 28).

The second comparison unit 28 is a logical product operation unit 30 for describing a predetermined information signal (0 or 1) on the basis of the number of edge points counted by the number of edge points counter 26 and the preset reference value TH2. Is configured to provide

The AND operation unit 30 is configured to output a result of performing an AND operation on predetermined information signals provided from the first and second comparison units 20 and 28, and the AND operation unit 30 is an AND gate. (AND).

The present invention configured as described above will be described in detail with reference to Examples.

Referring to FIG. 2, the first edge detector 10 detects an edge point component and the like for the input original video signal and provides the edge extension 12 to the edge extension 12. As shown in a), the calculation unit 16 and the gradient calculation unit 22 are provided.

When the video signal reproduced corresponding to the original video signal is provided to the second edge detector 14, the second edge detector 14 detects an edge point of the reproduced video signal, and calculates the operation unit 16 and the gradient. The calculation unit 22 is provided.

The calculation unit 16 performs an exclusive OR operation on the virtual edge components of the edge expansion unit 12 and the edge components of the video signal reproduced by the second edge detection unit 14, as shown in FIG. ) Is counted by the counter unit 18 and then provided to the first comparison unit 20.

For example, the information data in the area A shown in FIG. 3 (c) is represented by 1, and the other area is expressed by 0. As shown in FIG. Accordingly, the counter 18 counters the information data represented by 1, that is, the information data in which the distortion has occurred, and provides the counter to the first comparator 20.

The first comparator 20 compares the preset reference value TH1 with the counter value of the distortion-produced information data and provides it as one terminal of the logical product operator 30.

The edge expansion unit 12 provides the gradient calculation unit 22 with a virtual edge component (corresponding to (a) of FIG. 3) formed by extending the pixel component of the original video signal by 2 pixels. .

In addition, the second edge detector 14 provides an edge component with respect to the video signal to which the original video signal is reproduced and inputted after signal processing to the gradient calculator 22.

Accordingly, the gradient calculator 22 calculates the gradient values for the respective edge points, that is, the gradient values of the original image and the reproduced image, as shown in FIG. 4 as an example.

G1 = | I (i, j)-I (i-1, j) |

G2 = | I (i, j)-I (i + 1, j) |

G3 = I (i, j)-I (i, j-1)

G4 = ｜ I (i, j)-I (i, j + 1) ｜

The maximum G = max (G1, G2, G3, G4) value is obtained by the above equation.

That is, (i, j) is the coordinate of the edge point; I (i-1, j), I (i + 1, j), I (i, j-1), I (i, j + 1) are up, down, left around (i, j) points A coordinate point with respect to the edge point in the right direction; G1, G2, G3, G4 are coordinates (i, j) and I (i-1, j), I (i + 1, j), I (i, j-1), I (i, j) +1) gradient value.

Here, the gradient values of the original image and the gradient values of the reproduced image are provided to the difference value calculator 24. The difference calculator 24 calculates the difference between the gradient value of the extended virtual edge point calculated by the gradient calculator 22 and the gradient value of the reproduced video signal, and then calculates the edge point counter 26. ) Will be provided.

Therefore, the edge point number counter 26 counts the number of the edge points of the reproduced video signal included in the extended virtual edge point based on the difference value by the difference value calculation unit 24, and the second comparison will be described later. It will be provided to the unit (28).

The second comparison unit 28 compares the number of edge points countered by the number of edge points counter 26 with a preset reference value TH2.

As a result of the comparison by the second comparison unit 28, if the number of edge points counted by the number of edge points counter 26 is larger than the preset reference value TH2, the predetermined value for re-encoding the original image is performed. Control signal (1) is provided to the logical product operation unit (30).

On the contrary, if the number of edge points counted by the number of edge points counter 26 is smaller than the preset reference value TH2 as a result of comparison by the second comparing unit 28, the original video signal is encoded again. The predetermined control signal 0, which does not execute, is provided to the AND product 30.

The AND product 30 outputs a control signal for re-encoding the original image only when the predetermined control signals 1 and 1 are provided from the first and second comparators 20 and 28, respectively. .

As described above, according to the present invention, before the image signal encoded by the demodulator is transmitted based on the edge points between the original image and the reproduced image, the image quality of the original image may be encoded again. It can be effective.

Claims (2)

An image quality evaluation apparatus of an image encoder for evaluating the quality state of an original image by counting the number of distorted edge points between the extended virtual edge points and the edge points of a playback video signal with respect to the original video signal: A first comparing unit 20 for providing a control signal based on the distorted edge point number value and a preset reference value TH1; A gradient calculator (22) for obtaining respective gradient values for the extended virtual edge point of the original video signal and the edge point of the reproduced video signal; A difference value calculator (24) for calculating a difference value between the gradient value of the extended virtual edge point calculated by the gradient calculator (22) and the edge point gradient value of the reproduced video signal; An edge point number counter 26 for counting the number of edge points of a reproduced video signal included in the extended virtual edge point based on the difference value by the difference value calculation unit 24; A second comparing unit 28 which provides a predetermined control signal based on the number of edge points counted by the edge number counter 26 and a preset reference value TH2; An AND operation unit 30 for performing an AND operation on a predetermined control signal provided from each of the first and second comparison units 20 and 28 and providing an information signal on whether to encode the original image again. Apparatus for evaluating the image quality of a video encoder comprising a. The original video signal according to claim 1, wherein, as a result of the comparison by the second comparison unit 28, the number of edge points counted by the number of edge points counter 26 is smaller than the preset reference value TH2. Provide a predetermined control signal 0 which is not encoded again with respect to the? As a result of the comparison by the second comparing unit 28, if the number of edge points countered by the number of edge points counter 26 is larger than the preset reference value TH2, the encoding for the original image is performed again. Apparatus for evaluating image quality of a video encoder characterized by providing a predetermined control signal (1).