A method and apparatus to remove a block effect and a ring effect appearing in a compression-coded image is disclosed. The present invention is especially applicable to an image compression-coded at a low bit rate. In particular, the present invention includes a variety of masks for the removal of the block/ring effect. Thus, one mask is select for a pixel to be filtered. Moreover, candidate pixels to be averaged with the pixel to be filtered is selected from the pixels of the selected mask to better maintain the details of the image, and a weight is applied to improve the calculation speed of the averaging operation. More particularly, the masks according to the present invention have longer tabs toward adjacent blocks at boundaries of the given block to remove the block and ring effect. In an embodiment of the present invention, a pixel of an image is filtered according to a filtering methodology. The filtering methodology includes selecting at least four pixels of successive pixels according to a position of a pixel to be filtered. The selected at least four pixels includes the pixel to be filtered, at least one of the selected at least four pixels is in a first block, and three of the selected at least four pixels are in a second block adjacent to the first block. The filtering methodology includes applying an averaging operation to the selected at least four pixels, and the averaging operation includes a shift operation.
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0. 21. A method of filtering an image, comprising:
filtering, with a filtering unit, a pixel of an image according to a filtering methodology, the filtering methodology including,
selecting at least four pixels of successive pixels according to a position of a pixel to be filtered, the selected at least four pixels including the pixel to be filtered, at least one of the selected at least four pixels being in a first block, and three of the selected at least four pixels being in a second block adjacent to the first block, and
applying a mathematical operation including a difference determination to at least two of the selected at least four pixels, the at least two of the selected at least four pixels including non-adjacent pixels, the mathematical operation including a shift operation.
0. 1. A filtering method for a pixel P of a block B in a reconstructed image, comprising:
selecting one of a plurality of filtering masks based upon a position of said pixel P in said block B; and
averaging said pixel P and candidate pixels within the selected filtering mask.
0. 2. A method of
0. 3. A method of
0. 4. A method of
0. 5. A method of
0. 6. A method of
δ=k×q where k is a constant and q is a quantization step interval of said block B.
0. 7. A method of
0. 8. A method of
0. 9. A method of
0. 10. A filtering apparatus to filter a pixel P of a block B in a reconstructed image, comprising:
a filtering masking unit selecting one of a plurality filtering masks based upon a position of said pixel P in said block B; and
an averaging unit averaging said pixel P and candidate pixels within the selected mask.
0. 11. An apparatus of
0. 12. An apparatus of
a filtering mask in which eight tabs are selected from the 3×3 mask form, discarding one corner tab;
a filtering mask in which more tabs are selected in a vertical direction than a horizontal direction, and more vertical lower tabs are selected than vertical upper tabs;
a filtering mask in which more tabs are selected in the vertical direction than the horizontal direction, and more vertical upper tabs are selected than vertical lower tabs;
a filtering mask in which more tabs are selected in the horizontal direction than the vertical direction, and more horizontal left tabs are selected than horizontal right tabs; and
a filtering mask in which more tabs are selected in the horizontal direction than the vertical direction, and more horizontal right tabs are selected than horizontal left tabs.
0. 13. An apparatus of
0. 14. An apparatus of
a comparison unit selecting a pixel within the selected mask Pm as a candidate pixel if the value of the pixel Pm meets a predetermined condition.
0. 15. An apparatus of
0. 16. An apparatus of
δ=k×q where k is a constant and q is a quantization step interval of said block B.
0. 17. An apparatus of
0. 18. An apparatus of
0. 19. An apparatus of
0. 20. A coding and decoding method comprising:
a discrete cosine transform (DCT) unit performing a DCT operation with respect to divided blocks of an image to generate DCT coefficients;
a quantization unit quantizing the DCT coefficients and transmitting the DCT coefficients in a form of a bit stream through a transmission channel;
a dequantization unit dequantizing the DCT coefficients received through the transmission channel;
an inverse DCT unit performing an inverse DCT operation with respect to the dequantized DCT coefficients to form a reconstructed image, and
a filtering process unit filtering each pixel of each block of the reconstructed image by selecting one of a plurality of filtering masks based upon a position of said pixel in said block; and averaging said pixel and candidate pixels within the selected filtering mask.
0. 22. The method of
0. 23. The method of
0. 24. The method of
0. 25. The method of
0. 26. The method of
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In claims invention. Many alternatives, modifications, and variations will be apparent to those skilled in the art.
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