KR100227280B1 - Image data decoding method and apparatus - Google Patents

Abstract

The present invention relates to a method and apparatus for decoding image data, and in particular, the method comprises the steps of: decompressing compressed image data; Detecting characteristics of the decompressed image data; And automatically generating an image control signal of an analog image signal to be restored according to the characteristic of the detected image data.

Description

Method and apparatus for decoding image data

The present invention relates to a method and apparatus for decoding video data. In particular, in decoding a video data compressed by an MPEG method, the video signal is detected and the video signal is automatically detected according to the detected video signal. A method and apparatus for decoding video data that can be controlled.

In general, when compressing a digitized video, it is necessary to adjust the size of the signal well. Compression requires a lot of effort and time to achieve good image quality. However, most moving picture compression apparatuses are made in real time, and thus cannot afford to adjust the size of the signal. This phenomenon is the same phenomenon that exists in current analog systems, and the user adjusts the optimal screen state by adjusting the screen of a television or a computer monitor. Unlike sound signals, video signals are sometimes adjusted to optimize image quality. In the case of sound, the sound is loud and small or the quality of the sound is very often adjusted. On the other hand, video signals are rarely adjusted after they are adjusted at the time of purchase of a television or computer monitor.

1 shows the configuration of a conventional apparatus for decoding video data. The video stream compressed by the MPEG method is decoded by the video expander 10 according to the MPEG decoding method to output the extended image data, luminance, and color difference data. The luminance and color difference data are signal processed by the television encoder 12 and output as an analog television signal such as NTSC or PAL. The control unit 14, such as a microcontroller, generates a screen adjustment signal corresponding to a screen adjustment command adjusted by the user, for example, a screen adjustment signal such as gain, offset, color mixing, and the like, and the screen adjustment signal is transmitted to the television encoder 14. It is applied to control the signal processing of the video signal. That is, in the current digital video, the adjustment is made at the stage of converting the digital video signal into an analog video signal. Usually, a block for performing a signal adjustment function is performed by a video encoder or a television signal encoder.

Therefore, conventionally, in such an encoder, an amplification degree, offset, color mixing, or the like of a video signal is controlled in response to a screen adjustment signal generated by a control unit such as a microcomputer. The control unit generates a manual screen adjustment signal according to a specific screen adjustment signal or a manually adjusted value.

In the conventional method, since the user looks at the screen state and adjusts the screen to an optimal state at that time, it is not only inconvenient in use, but also it is difficult to make optimal adjustment according to the characteristics of the video signal compressed under various conditions.

SUMMARY OF THE INVENTION An object of the present invention is to detect a characteristic of an extended image data at the time of decoding compressed video data and to automatically adjust a control signal according to the characteristic of the detected image signal in order to solve the problems of the related art. The present invention provides a method and apparatus for decoding image data that can be optimally adjusted by generating a screen adjustment automatically by the control signal.

In order to achieve the above object, the method of the present invention comprises the steps of: stretching the compressed image data; Detecting characteristics of the decompressed image data; And automatically generating an image control signal of an analog image signal to be restored according to the characteristic of the detected image data.

In addition, the apparatus of the present invention includes a video expander for inputting and compressing a compressed data stream and generating the decompressed image data; An image characteristic detector configured to input the extended image data to detect a characteristic of an image signal and to generate an image control signal; And an encoder for processing the video data in response to the video control signal and for encoding the processed video data into a television signal.

1 is a diagram showing the configuration of a conventional apparatus for decoding video data.

2 is a view showing the configuration of a preferred embodiment of a video decoding apparatus according to the present invention.

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

2 shows a configuration of a preferred embodiment of an image decoding apparatus according to the present invention. In the drawing, the video stream compressed by the MPEG method is decoded by the video decompressor 20 according to the MPEG decoding method to output the decompressed image data, luminance, and color difference data (Y, Cr, Cb). The image signal characteristic detector 22 inputs luminance and color difference data to detect characteristics of the image data. For example, the minimum and maximum values of the luminance data may be found for a predetermined time to determine an amplification value and an offset value of the luminance signal, and the determined value may be generated as an image control signal. In addition, the color mixing data may be analyzed to determine a color mixing value, and the determined value may be generated as an image control signal. Another example is to find out the kinds of scenes represented on the screen by the characteristics of luminance and chrominance data, for example, by incorporating fuzzy theory, and the best brightness, contrast, and color for the scene. An image control signal such as a tint may be generated.

(****** The above embodiment is deemed that the idea of the present invention is not disclosed enough to enable those skilled in the art at the time of application of the present invention, but merely describes the desired matter, and thus is rejected due to the lack of disclosure requirements at the time of examination. Therefore, the inventors should supplement the specific technical configuration of detecting the characteristics of the video signal, and in particular, how to generate various image quality control signals corresponding to the recognized scene by recognizing the type of scene using fuzzy theory. Please add more details on how to do it *****)

On the other hand, the luminance and color difference data are signal processed by the television encoder 24 and output as analog television signals such as NTSC or PAL. The control unit 26, such as a microcontroller, generates a screen adjustment signal corresponding to a screen adjustment command adjusted by a user, for example, a screen adjustment signal such as gain, offset, color mixing, or an initial screen adjustment signal, The video control signal is applied to the television encoder 24 to automatically or manually control the signal processing of the video signal.

As described above, the present invention detects the characteristics of the stretched image data and automatically improves the image quality of the image signal restored according to the detection result. It will be done automatically.

As described above, in the present invention, the image quality is automatically adjusted at the time of decoding the image data, so that the image quality can be adjusted under conditions that are convenient for use and are optimal for the image data.

Claims (6)

Decompressing the compressed image data; Detecting characteristics of the decompressed image data; And generating an optimum control signal of the analog video signal reconstructed according to the detected characteristic of the video data. The method of claim 1, wherein the optimum control signal is a signal for controlling gain, offset, and color mixing of the video signal. The method of claim 1, wherein the detecting of the characteristic of the image data comprises identifying the type of each scene based on a luminance signal and a color signal by fuzzy theory. The method of claim 1, wherein the detecting of the characteristic of the image data comprises determining the amplification degree and the offset of the image data by measuring the amplitude of the luminance signal and the color signal for a predetermined period of time. A video expander that inputs and expands the compressed data stream and generates the decompressed image data; An image characteristic detector configured to input the image data to detect characteristics of the image data and to generate an image control signal; And an encoder for processing the video data in response to the video control signal and encoding the processed video data into a television signal. The image data decoding apparatus of claim 5, wherein the decoding apparatus further comprises a control unit providing an initial value of image control to the encoder and a manual control signal.

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