KR20100046467A - Filtering unit for common prediction block system in svc decoder - Google Patents

Abstract

PURPOSE: A filtering unit for a common prediction block system in an SVC(Scalable Video Coding) decoder is provided to minimize the number of gates by configuring a multiplier through an adder and a shifter. CONSTITUTION: According to a prediction mode, a filter coefficient selector(100) selects a filter coefficient. A data module unit(200) arranges input data, and a first operation unit(300) performs calculation through aligned data and the filter coefficient according to a predetermined prediction block. A filter type decision unit(400) filters a prediction block after determining a filter tap number. An internal storage unit(500) temporally a filtered result, and a second calculation unit(600) performs the calculation for the final result.

Description

Filtering unit for common prediction block system in SV decoder

The present invention relates to a filtering method and apparatus in a common prediction block system of an H.264 / AVC scalable extension (SE) decoder. In particular, the present invention relates to an efficient filtering method and optimization by analyzing filter types and expressions used in a common prediction block. The present invention relates to a filtering device for a common prediction block system of an SVC decoder that enables a hardware implementation.

A key feature of Scalable Video Coding (SVC) is the ability to adaptively reconstruct images with different resolutions, picture quality, and frame rates in a single compressed bitstream to various devices and various network environments.

However, the current video compression technique is a single layer compression encoding technique that mainly compresses and transmits at a fixed image format and bit rate. In addition, the scalable video compression method that has been studied up to now has low compression efficiency problems, image quality degradation due to channel variation, There is a problem with real-time adaptation.

In SVC (Scalable Video Coding), spatial scalability and coarse grain SNR scalability are implemented in a multi-layer structure, and temporal scalability is a prediction method using hierarchical B pictures. Implement In addition, fine quality scalability is implemented by encoding the quantization interval progressively, which is an FGS technique.

In addition, by combining additional techniques with those already defined in H.264 / AVC, high compression efficiency is achieved while maintaining scalability characteristics.

However, scalable decoders result in a significant increase in computation compared to non-scalable decoders.

Accordingly, there is a need for a reduced complexity decoder capable of supporting various sizes of screens and picture quality from one bitstream over a limited bandwidth, and an efficient filtering method for common prediction blocks and a filtering device for implementing the same.

An object of the present invention is to provide a filtering method and apparatus in a common prediction block system of an H.264 / AVC scalable extension (SE) decoder.

An object of the present invention is to provide a filtering apparatus for a common prediction block system of an SVC decoder that enables an efficient filtering method and an optimized hardware implementation by analyzing filter types and arithmetic expressions used in a common prediction block system. .

An object of the present invention is to provide a filtering apparatus for a common prediction block system of an SVC decoder that enables an efficient filtering method and an optimized hardware implementation in a structure in which operations of each prediction block are processed in a common prediction block system.

In order to achieve the above object, the filtering apparatus for the common prediction block system of the SVC decoder according to the present invention is a common prediction block system of the H.264 / AVC SE standard decoder, and the filter coefficients are selected according to the selected prediction mode. A filter module selection unit to select; a data module unit to arrange input data to generate the prediction signal; a first calculator configured to receive the filter coefficients and the alignment data and perform calculation according to a determined prediction block; determine a number of filter taps A filter type determiner configured to filter the prediction block; an internal storage temporarily storing the filtered result; a second calculator configured to perform the calculation to obtain the calculated final result; storing the final calculated prediction result value Result storage unit; characterized in that it comprises a.

Here, the first operation unit may store and store 2, 4, and 6 tap filter coefficients in a table according to the prediction modes, and replace the multiplier using an adder and a shifter.

The filter type determiner may use 6 tap filters, 4 taps, and 2 tap filters to filter the prediction block.

The filtering device for the common prediction block system of the SVC decoder according to the present invention has the following effects.

First, the present invention provides a filtering device that minimizes the number of gates through a shift operator and an adder in hardware implementation of a common prediction block.

Second, it provides an efficient filtering method to increase the use of internal memory in common prediction blocks.

Third, there is an effect of providing an efficient filtering method of the common prediction block system of the SVC decoder so that several prediction modes can be processed as one common prediction block.

Hereinafter, a preferred embodiment of a filtering device for a common prediction block system of an SVC decoder according to the present invention will be described in detail.

Features and advantages of the filtering apparatus for the common prediction block system of the SVC decoder according to the present invention will become apparent from the detailed description of each embodiment below.

First, the common prediction block system of the SVC decoder according to the present invention will be described.

1 is a block diagram illustrating a common prediction block system of an SVC decoder according to an embodiment of the present invention, and FIG. 2 is an equation table for a required filter method of prediction blocks of an SVC decoder.

As shown in FIG. 1, the common prediction block allocates the common math operation unit (CMOU), which is a common operation module, and input data to a calculation module in a structure suitable for each prediction mode, in consideration of the calculation characteristics and the memory structure of each prediction block. It consists of parts.

Here, the prediction mode includes intra prediction, motion compensation prediction (MC), and inter-layer intra prediction (BL intra) modes that are basically used in the SVC decoder.

3 is a block diagram of a pixel interpolation method for motion compensation prediction used in an SVC decoder.

Motion compensation of 1/4 precision is performed, and since the reference frame includes only pixels of integer units, 1/4 pixel units of the reference frame are generated through pixel interpolation.

When a pixel value of position b having 1/2 pixel precision is to be generated, the 6-tap Winer filter of FIG. 2 is performed in the horizontal direction and the vertical direction. In addition, a bilinear filter is performed using the surrounding 1/2 pixels to generate pixel values of the i position having 1/4 pixel precision. This is the same as the two-tap filter of FIG.

4A and 4B are diagrams illustrating intra prediction in an SVC decoder.

Intra-picture prediction is to predict data by using already coded reconstructed blocks in the same frame. This is a prediction method that H.264 / AVC has been adopted, and there are two intra prediction methods, INTRA_4x4 and INTRA_16x16.

INTRA_4x4 divides and predicts macroblocks (MBs) into 16 blocks of 4x4 units and performs prediction on nine directions from 0 to 8 using neighboring reconstructed blocks. The figure shows the prediction method of INTRA_4x4.

The second DC mode represents an average value of the corresponding pixels in the reconstruction block of (A, B, C, D, I, J, K, L). The INTRA_16x16 prediction only performs prediction on four directions of vertical, horizontal, average, and plane for a 16x16 macroblock.

In the inter-layer prediction in the SVC decoder, up-sampling of a reconstructed image of a lower layer corresponding to a macroblock to be decoded in the current layer to a spatial resolution of a macroblock of the current layer is performed. And use it as a prediction signal. The prediction mode of the macroblock to be decoded in this manner is called a base layer intra prediction (BL Intra) mode. The interpolation filter for up-sampling uses the 4tap filter of FIG. 3, and the corresponding position is determined in units of 1/16 pixels, and different filter coefficients are applied according to the fractional value of the corresponding position. do.

The method and apparatus for common prediction block system filtering of an SVC decoder according to an embodiment of the present invention is a common prediction block filtering device based on a motion compensation prediction (MC) having the most complex structure among the three prediction modes. .

5 is a block diagram of a common prediction block filter system of an SVC decoder according to the present invention.

The configuration includes a filter coefficient selection unit 100 for selecting filter coefficients according to a selected prediction mode for efficient filter processing, a data module unit 200 for arranging input data for generating the prediction signal, and the filter. The first calculation unit 300 that receives the filter coefficients and the alignment data of the coefficient selection unit 100 and the data module unit 200 and performs calculation according to the determined prediction block, and determines the number of filter taps to filter the prediction block. A filter type determination unit 400, an internal storage unit 500 that temporarily stores the filtered result, a second calculation unit 600 that performs a calculation to obtain the calculated final result, and the final calculated And a result storage unit 700 for storing the prediction result value.

Herein, the first operation unit 300, which receives the filter coefficients and the alignment data of the filter coefficient selection unit 100 and the data module unit 200 and performs the calculation according to the determined prediction block, respectively, may determine 2, Table 4 and 6 tap filter coefficients and store them in place of the multiplier using an adder and shifter.

The filter type determiner 400 for determining the filter type uses 6 tap filters, 4 tap filters, and 2 tap filters to filter the prediction blocks.

FIG. 6 illustrates an internal configuration of a common prediction block filtering device, and a data flow according to the selected filter type is shown in FIG. 7.

The common prediction block filtering apparatus according to the present invention is a structure for outputting an operation result for each filter type by selecting a filter type, and interpolating the prediction block in a motion compensation prediction (MC) mode to calculate the selected prediction mode. 6 tap filter for filtering, 4 tap and 2 tap filters for calculating the selected prediction mode of intra prediction mode, 4-tap for performing upsampling in BL intra mode Use a filter.

That is, the filter types are 2 TAP, 4 TAP, 6 TAP, and in the case of 2 TAP, up to 4 calculation results can be output, 4 TAP can output 2 calculation results, and 6 TAP can output 1 calculation result.

In the present invention, a multiplier is configured using an adder and a shifter as shown in FIG.

That is, it is designed to use the adder and the shifter by tabulating the filter coefficients coming into the input.

The common prediction block system filter device of the SVC decoder according to the present invention is configured to output twice the calculation result using two such common prediction block system filter devices in parallel.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

1 is a block diagram illustrating a common prediction block system of an SVC decoder

2 is a table showing necessary filter operation equations of prediction blocks of an SVC decoder.

3 is a block diagram of a pixel interpolation method for motion compensation prediction

4A and 4B are diagrams illustrating an intra prediction method of an SVC decoder.

5 is a block diagram of a common prediction block filter system of an SVC decoder according to the present invention.

6 is a diagram illustrating an internal configuration of a common prediction block filter system according to the present invention.

7 is a data flow diagram according to a selected filter tap in a common prediction block filter system according to the present invention.

8 is a flowchart using a shifter and an adder according to the present invention.

Explanation of symbols for the main parts of the drawings

100. Filter coefficient selection unit 200. Data module unit

300.600. First and second operation unit 400. Filter type determination unit

500. Internal storage 700. Results storage

Claims (3)

In the common prediction block system of the H.264 / AVC SE standard decoder, A filter coefficient selector for selecting a filter coefficient according to the selected prediction mode; A data module unit for arranging input data to generate the prediction signal; A first calculator configured to receive the filter coefficients and the alignment data and perform calculation according to the determined prediction block; A filter type determiner configured to filter the prediction block by determining a number of filter taps; An internal storage for temporarily storing the filtered result; A second calculating unit which performs a calculation to obtain the calculated final result; And a result storage unit for storing the final calculated prediction result value. 2. The filtering apparatus for the common prediction block system of the SVC decoder. The method of claim 1, wherein the first operation unit, 2, 4, and 6 tap filter coefficients according to prediction modes, respectively, tabled and stored, and using an adder and a shifter to replace the multiplier, characterized in that the filtering device for the common prediction block system of the SVC decoder. The method of claim 1, wherein the filter type determiner, 6. A filtering apparatus of a common prediction block system of an SVC decoder, using 6 tap filters, 4 taps, and 2 tap filters to filter prediction blocks.

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