Image encoding apparatus, image decoding apparatus, control method therefor, computer program, and computer-readable storage medium
First Claim
1. An image encoding apparatus which receives image data in which one pixel is formed from a plurality of color component data, and losslessly encodes the image data, comprising:
- predictive encoding means for obtaining predicted values of respective color component data which form input pixel data of interest, by referring to color component data of an encoded pixel near the pixel of interest, and generating predictively encoded data;
color counting means for counting the number of colors contained in a plurality of pixel data at encoded pixel positions near the pixel of interest, and generating color count information;
vector information generation means for comparing the pixel data of interest with the plurality of pixel data present at the encoded pixel positions near the pixel of interest, and generating-vector information for specifying whether a neighboring pixel having the same color as a color of the pixel of interest exists, and when the neighboring pixel having the same color exists, specifying a position of the neighboring pixel relative to the pixel of interest;
vector information encoding means for encoding the vector information; and
encoded data generation means for generating encoded data to be output, from encoded data obtained by said predictive encoding means and said vector information encoding means on the basis of the color count information obtained by said color counting means and the vector information obtained by said vector information generation means, wherein when the number of colors represented by the color count information is not more than a predetermined threshold and the vector information represents presence of a neighboring pixel having the same color as the color of the pixel of interest, said encoded data generation means outputs the encoded data generated by said vector information encoding means as encoded data of the pixel of interest, when the number of colors counted by said color counting means is not more than the predetermined threshold and the vector information represents absence of a neighboring pixel having the same color as the color of the pixel of interest, said encoded data generation means outputs, as encoded data of the pixel of interest, the encoded data generated by said vector information encoding means and the predictively encoded data generated by said predictive encoding means, and when the number of colors counted by said color counting means exceeds the predetermined threshold, said encoded data generation means outputs the predictively encoded data generated by said predictive encoding means as encoded data of the pixel of interest.
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Abstract
According to this invention, while the encoding efficiency of image data (e.g., a natural image) substantially maintains the conventional one, an image (e.g., a CG image or text document) having a small number of appearance colors is losslessly encoded at higher compression ratio. For this purpose, pixel data are input in the raster order and temporarily stored in a buffer. Pixel data at positions having undergone encoding are stored. A neighborhood matching determination unit generates first information representing whether a pixel having the same color as that of the pixel of interest exists in neighboring pixels a, b, and c, and second information for specifying whether a pixel having the same color as that of the pixel of interest exists, and if the pixel having the same color exists, specifying the neighboring pixel. A pixel matching detection unit counts the number of colors contained in the neighboring pixels a, b, and c, and generates information representing whether the number of colors is two or less, or three or less. On the basis of the first information and second information, a code generation unit outputs one or both of encoded data from a matched-pixel position encoding unit and prediction error encoding unit.
31 Citations
32 Claims
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1. An image encoding apparatus which receives image data in which one pixel is formed from a plurality of color component data, and losslessly encodes the image data, comprising:
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predictive encoding means for obtaining predicted values of respective color component data which form input pixel data of interest, by referring to color component data of an encoded pixel near the pixel of interest, and generating predictively encoded data;
color counting means for counting the number of colors contained in a plurality of pixel data at encoded pixel positions near the pixel of interest, and generating color count information;
vector information generation means for comparing the pixel data of interest with the plurality of pixel data present at the encoded pixel positions near the pixel of interest, and generating-vector information for specifying whether a neighboring pixel having the same color as a color of the pixel of interest exists, and when the neighboring pixel having the same color exists, specifying a position of the neighboring pixel relative to the pixel of interest;
vector information encoding means for encoding the vector information; and
encoded data generation means for generating encoded data to be output, from encoded data obtained by said predictive encoding means and said vector information encoding means on the basis of the color count information obtained by said color counting means and the vector information obtained by said vector information generation means, wherein when the number of colors represented by the color count information is not more than a predetermined threshold and the vector information represents presence of a neighboring pixel having the same color as the color of the pixel of interest, said encoded data generation means outputs the encoded data generated by said vector information encoding means as encoded data of the pixel of interest, when the number of colors counted by said color counting means is not more than the predetermined threshold and the vector information represents absence of a neighboring pixel having the same color as the color of the pixel of interest, said encoded data generation means outputs, as encoded data of the pixel of interest, the encoded data generated by said vector information encoding means and the predictively encoded data generated by said predictive encoding means, and when the number of colors counted by said color counting means exceeds the predetermined threshold, said encoded data generation means outputs the predictively encoded data generated by said predictive encoding means as encoded data of the pixel of interest. - View Dependent Claims (2, 3)
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4. A method of controlling an image encoding apparatus which receives image data in which one pixel is formed from a plurality of color component data, and losslessly encodes the image data, comprising:
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a predictive encoding step of obtaining predicted values of respective color component data which form input pixel data of interest, by referring to color component data of an encoded pixel near the pixel of interest, and generating predictively encoded data;
a color counting step of counting the number of colors contained in a plurality of pixel data at encoded pixel positions near the pixel of interest, and generating color count information;
a vector information generation step of comparing the pixel data of interest with the plurality of pixel data present at the encoded pixel positions near the pixel of interest, and generating vector information for specifying whether a neighboring pixel having the same color as a color of the pixel of interest exists, and when the neighboring pixel having the same color exists, specifying a position of the neighboring pixel relative to the pixel;
of interest;
a vector information encoding step of encoding the vector information; and
an encoded data generation step of generating encoded data to be output, from encoded data obtained in the predictive encoding step and the vector information encoding step on the basis of the color count information obtained in the color counting step and the vector information obtained in the vector information generation step, wherein in the encoded data generation step, when the number of colors represented by the color count information is not more than a predetermined threshold and the vector information represents presence of a neighboring pixel having the same color as the color of the pixel of interest, the encoded data generated in the vector information encoding step is output as encoded data of the pixel of interest, when the number of colors counted in the color counting step is not more than the predetermined threshold and the vector information represents absence of a neighboring pixel having the same color as the color of the pixel of interest, the encoded data generated in the vector information encoding step and the predictively encoded data generated in the predictive encoding step is output as encoded data of the pixel of interest, and when the number of colors counted in the color counting step exceeds the predetermined threshold, the predictively encoded data generated in the predictive encoding step is output as encoded data of the pixel of interest.
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5. A computer program which is loaded into a computer and executed to function as an image encoding apparatus that receives image data in which one pixel is formed from a plurality of color component data, and losslessly encodes the image data, functioning as:
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predictive encoding means for obtaining predicted values of respective color component data which form input pixel data of interest, by referring to color component data of an encoded pixel near the pixel of interest, and generating predictively encoded data;
color counting means for counting the number of colors contained in a plurality of pixel data at encoded pixel positions near the pixel of interest, and generating color count information;
vector information generation means for comparing the pixel data of interest with the plurality of pixel data present at the encoded pixel positions near the pixel of Interest, and generating vector information for specifying whether a neighboring pixel having the same color as a color of the pixel of interest exists, and when the neighboring pixel having the same color exists, specifying a position of the neighboring pixel relative to the pixel of interest;
vector information encoding means for encoding the vector information; and
encoded data generation means for generating encoded data to be output, from encoded data obtained by said predictive encoding means and said vector information encoding means on the basis of the color count information obtained by said color counting means and the vector information obtained by said vector information generation means, wherein said encoded data generation means functions to when the number of colors represented by the color count information is not more than a predetermined threshold and the vector information represents presence of a neighboring pixel having the same color as the color of the pixel of interest, output the encoded data generated by said vector information encoding means as encoded data of the pixel of interest, when the number of colors counted by said color counting means is not more than the predetermined threshold and the vector information represents absence of a neighboring pixel having the same color as the color of the pixel of interest, output, as encoded data of the pixel of interest, the encoded data generated by said vector information encoding means and the predictively encoded data generated by said-predictive encoding means, and when the number of colors counted by said color counting means exceeds the predetermined threshold, output the predictively encoded data generated by said predictive encoding means as encoded data of the pixel of interest. - View Dependent Claims (6)
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7. An image decoding apparatus which decodes image data that has one pixel formed from a plurality of color component data and is encoded in a predetermined pixel order, comprising:
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storage means for storing decoding results by a predetermined number of lines, and performing initialization by data of a predetermined color prior to start of decoding;
predictive decoding means for obtaining a predicted value by referring to color component data of a decoded pixel near input pixel data of interest, and decoding predictively encoded data;
color counting means for counting the number of colors contained in a plurality of pixel data at decoded pixel positions near the pixel of interest, and generating color count information;
first decoded data output means for, when the number of colors in the color count information obtained by said color counting means exceeds a predetermined number, determining that encoded data of the pixel of interest is predictively encoded data, and outputting a decoding result obtained by said predictive decoding means as decoded data of the pixel of interest;
vector information decoding means for, when the number of colors in the color count information obtained by said color counting means is not more than the predetermined number, determining that the encoded data of the pixel of interest is vector information, and decoding the vector information;
second decoded data output means for, when the vector information obtained by said vector information decoding means represents a decoded neighboring pixel position having the same color as a color of the pixel of interest, selecting pixel data at a corresponding position in said storage means, and outputting the pixel data as decoded data of the pixel of interest; and
third decoded data output means for, when the vector information obtained by said vector information decoding means represents absence of a neighboring pixel position having the same color as the color of the pixel of interest, causing said predictive decoding means to decode encoded data input subsequently to the vector information, and outputting the decoded data as decoded data of the pixel of interest. - View Dependent Claims (8, 9)
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10. A method of controlling an image decoding apparatus which comprises storage means for storing decoding results by a predetermined number of lines and performing initialization by data of a predetermined dolor prior to start of decoding, and decodes image data that has one pixel formed from a plurality of color component data and is encoded in a predetermined pixel order, comprising:
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a predictive decoding step of obtaining a predicted value by referring to color component data of a decoded pixel near input pixel data of interest, and decoding predictively encoded data;
a color counting step of counting the number of colors contained in a plurality of pixel data at decoded pixel positions near the pixel of interest, and generating color count information;
a first decoded data output step of, when the number of colors in the color count information obtained in the color counting step exceeds a predetermined number, determining that encoded data of the pixel of interest is predictively encoded data, and outputting a decoding result obtained in the predictive decoding step as decoded data of the pixel of interest;
a vector information decoding step of, when the number of colors in the color count information obtained in the color counting step is not more than the predetermined number, determining that the encoded data of the pixel of interest is vector information, and decoding the vector information;
a second decoded data output step of, when the vector information obtained in the vector information decoding step represents a decoded neighboring pixel position having the same color as a color of the pixel of interest, selecting pixel data at a corresponding position in the storage means, and outputting the pixel data as decoded data of the pixel of interest; and
a third decoded data output step of, when the vector information obtained in the vector information decoding step represents absence of a neighboring pixel position having the same color as the color of the pixel of interest, decoding encoded data input subsequently to the vector information in the predictive decoding step, and outputting the decoded data as decoded data of the pixel of interest.
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11. A computer program which is loaded into a computer and executed to function as an image decoding apparatus which decodes image data that has one pixel formed from a plurality of color component data and is encoded in a predetermined pixel order, functioning as:
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allocation means for allocating a buffer memory which stores decoding results by a predetermined number of lines and is initialized by data of a predetermined color prior to start of decoding;
predictive decoding means for obtaining a predicted value by referring to color component data of a decoded pixel near input pixel data of interest, and decoding predictively encoded data;
color counting means for counting the number of colors contained in a plurality of pixel data at decoded pixel positions near the pixel of interest, and generating color count information;
first decoded data output means for, when the number of colors in the color count information obtained by said color counting means exceeds a predetermined number, determining that encoded data of the pixel of interest is predictively encoded data, and outputting a decoding result obtained by said predictive decoding means as decoded data of the pixel of interest;
vector information decoding means for, when the number of colors in the color count information obtained by said color counting means is not more than the predetermined number, determining that the encoded data of the pixel of interest is vector information, and decoding the vector information;
second decoded data output means for, when the vector information obtained by said vector information decoding means represents a decoded neighboring pixel position having the same color as a color of the pixel of interest, selecting pixel data at a corresponding position in the buffer memory, and outputting the pixel data as decoded data of the pixel of interest; and
third decoded data output means for, when the vector information obtained by said vector information decoding means represents absence of a neighboring pixel position having the same color as the color of the pixel of interest, causing said predictive decoding means to decode encoded data input subsequently to the vector information, and outputting the decoded data as decoded data of the pixel of interest. - View Dependent Claims (12)
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13. An image encoding apparatus which losslessly encodes image data in which one pixel is formed from a plurality of color component data, comprising:
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predictive encoding means for obtaining predicted values of respective color component data which form input pixel data of interest, by referring to color component data of an encoded pixel near the pixel of interest, and generating predictively encoded data;
color counting means for counting the number of colors contained in a plurality of pixel data at encoded pixel positions near the pixel of interest, and generating color count information;
vector information generation means for comparing the pixel data of interest with the plurality of pixel data at the encoded pixel positions near the pixel of interest, and generating vector information for specifying whether a neighboring pixel having the same color as a color of the pixel of interest exists, and when the neighboring pixel having the same color exists, specifying a position of the neighboring pixel relative to the pixel of interest;
vector information encoding means for encoding the vector information; and
encoded data generation means for generating encoded data to be output, from encoded data obtained by said predictive encoding means and said vector information encoding means on the basis of the color count information obtained by said color counting means and the vector information obtained by said vector information generation means, wherein (a) when the number of colors represented by the color count information is not more than a, predetermined threshold and the vector information represents presence of a neighboring pixel having the same color as the color of the pixel of interest, said encoded data generation means outputs the encoded data generated by said vector information encoding means as encoded data of the pixel of interest, (b) when the number of colors counted by said color counting means is not more than the predetermined threshold and the vector information represents absence of a neighboring pixel having the same color as the color of the pixel of interest, said encoded data generation means outputs, as encoded data of the pixel of interest, the encoded data generated by said vector information encoding means and uncompressed data of the pixel of interest, and (c) when the number of colors counted by said color counting means exceeds the predetermined threshold, said encoded data generation means outputs the predictively encoded data generated by said predictive encoding means as encoded data of the pixel of interest. - View Dependent Claims (14, 15, 16)
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17. A method of controlling an image encoding apparatus which losslessly encodes image data in which one pixel is formed from a plurality of color component data, comprising:
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a predictive encoding step of obtaining predicted values of respective color component data which form input pixel data of interest, by referring to color component data of an encoded pixel near the pixel of interest, and generating predictively encoded data;
a color counting step of counting the number of colors contained in a plurality of pixel data at encoded pixel positions near the pixel of interest, and generating color count information;
a vector information generation step of comparing the pixel data of interest with the plurality of pixel data at the encoded pixel positions near the pixel of interest, and generating vector information for specifying whether a neighboring pixel having the same color as a color of the pixel of interest exists, and when the neighboring pixel having the same color exists, specifying a position of the neighboring pixel relative to the pixel of interest;
a vector information encoding step of encoding the vector information; and
an encoded data generation step of generating encoded data to be output, from encoded data obtained in the predictive encoding step and the vector information encoding step on the basis of the color count information obtained in the color counting step and the vector information obtained in the vector information generation step, wherein in the encoded data generation step, (a) when the number of colors represented by the color count information is not more than a predetermined threshold and the vector information represents presence of a neighboring pixel having the same color as the color of the pixel of interest, the encoded data generated in the vector information encoding step is output as encoded data of the pixel of interest, (b) when the number of colors counted in the color counting step is not more than the predetermined threshold and the vector information represents absence of a neighboring pixel having the same color as the color of the pixel of interest, the encoded data generated in the vector information encoding step and uncompressed data of the pixel of interest is output as encoded data of the pixel of interest, and (c) when the number of colors counted in the color counting step exceeds the predetermined threshold, the predictively encoded data generated in the predictive encoding step is output as encoded data of the pixel of interest.
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18. A computer program which is loaded into a computer and executed to function as an image encoding apparatus that losslessly encodes image data in which one pixel is formed from a plurality of color component data, functioning as:
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predictive encoding means for obtaining predicted values of respective color component data which form input pixel data of interest, by referring to color component data of an encoded pixel near the pixel of interest, and generating predictively encoded data;
color counting means for counting the number of colors contained in a plurality of pixel data at encoded pixel positions near the pixel of interest, and generating color count information;
vector information generation means for comparing the pixel data of interest with the plurality of pixel data at the encoded pixel positions near the pixel of interest, and generating vector information for specifying whether a neighboring pixel having the same color as a color of the pixel of interest exists, and when the neighboring pixel having the same color exists, specifying a position of the neighboring pixel relative to the pixel of interest;
vector information encoding means for encoding the vector information; and
encoded data generation means for generating encoded data to be output, from encoded data obtained by said predictive encoding means and said vector information encoding means on the basis of the color count information obtained by said color counting means and the vector information obtained by said vector information generation means, wherein (a) when the number of colors represented by the color count information is not more than a predetermined threshold and the vector information represents presence of a neighboring pixel having the same color as the color of the pixel of interest, said encoded data generation means outputs the encoded data generated by said vector information encoding means as encoded data of the pixel of interest, (b) when the number of colors counted by said color counting means is not more than the predetermined threshold and the vector information represents absence of a neighboring pixel having the same color as the color of the pixel of interest, said encoded data generation means outputs, as encoded data of the pixel of interest, the encoded data generated by said vector information encoding means and uncompressed data of the pixel of interest, and (c) when the number of colors counted by said color counting means exceeds the predetermined threshold, said encoded data generation means outputs the predictively encoded data generated by said predictive encoding means as encoded data of the pixel of interest. - View Dependent Claims (19)
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20. An image decoding apparatus which decodes encoded image data in which one pixel is formed from a plurality of color component data, comprising:
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predictive decoding means for obtaining a predicted value by referring to color component data of a decoded pixel near input pixel data of interest, and decoding predictively encoded data;
color counting means for counting the number of colors contained in a plurality of pixel data at decoded pixel positions near the pixel of interest, and generating color count information;
first decoded data output means for, when the number of colors in the color count information obtained by said color counting means exceeds a predetermined number, determining that encoded data of the pixel of interest is predictively encoded data, and outputting a decoding result obtained by said predictive decoding means as decoded data of the pixel of interest;
vector information decoding means for, when the number of colors in the color count information obtained by said color counting means is not more than the predetermined number, determining that the encoded data of the pixel of interest is vector information, and decoding the vector information;
second decoded data output means for, when the vector information obtained by said vector information decoding means represents a decoded neighboring pixel position having the same color as a color of the pixel of interest, selecting decoded pixel data at a corresponding position, and outputting the decoded pixel data as decoded data of the pixel of interest; and
third decoded data output means for, when the vector information obtained by said vector information decoding means represents absence of a neighboring pixel position having the same color as the color of the pixel of interest, determining that subsequently input data is uncompressed data of the pixel of interest, and outputting the uncompressed data. - View Dependent Claims (21, 22)
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23. A method of controlling an image decoding apparatus which decodes encoded image data in which one pixel is formed from a plurality of color component data, comprising:
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a predictive decoding step of obtaining a predicted value by referring to color component data of a decoded pixel near input pixel data of interest, and decoding predictively encoded data;
a color counting step of counting the number of colors contained In a plurality of pixel data at decoded pixel positions near the pixel of interest, and generating color count information;
a first decoded data output step of, when the number of colors in the color count information obtained in the color counting step exceeds a predetermined number, determining that encoded data of the pixel of interest is predictively encoded data, and outputting a decoding result obtained in the predictive decoding step as decoded data of the pixel of interest;
a vector information decoding step of, when the number of colors in the color count information obtained in the color counting step is not more than the predetermined number, determining that the encoded data of the pixel of interest is vector information, and decoding the vector information;
a second decoded data output step of, when the vector information obtained in the vector information decoding step represents a decoded neighboring pixel position having the same color as a color of the pixel of interest, selecting decoded pixel data at a corresponding position, and outputting the decoded pixel data as decoded data of the pixel of interest; and
a third decoded data output step of, when the vector information obtained in the vector information decoding step represents absence of a neighboring pixel position having the same color as the color of the pixel of interest, determining that subsequently input data is uncompressed data of the pixel of interest, and outputting the uncompressed data.
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24. A computer program which is loaded into a computer and executed to function as an image decoding apparatus that decodes encoded image data in which one pixel is formed from a plurality of color component data, functioning as:
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predictive decoding means for obtaining a predicted value by referring to color component data of a decoded pixel near input pixel data of interest, and decoding predictively encoded data;
color counting means for counting the number of colors contained in a plurality of pixel data at decoded pixel positions near the pixel of interest, and generating color count information;
first decoded data output means for, when the number of colors in the color count information obtained by said color counting means exceeds a predetermined number, determining that encoded data of the pixel of interest is predictively encoded data, and outputting a decoding result obtained by said predictive decoding means as decoded data of the pixel of interest;
vector information decoding means for, when the number of colors in the color count information obtained by said color counting means is not more than the predetermined number, determining that the encoded data of the pixel of interest is vector information, and decoding the vector information;
second decoded data output means for, when the vector information obtained by said vector information decoding means represents a decoded neighboring pixel position having the same color as a color of the pixel of interest, selecting decoded pixel data at a corresponding position, and outputting the decoded pixel data as decoded data of the pixel of interest; and
third decoded data output means for, when the vector information obtained by said vector information decoding means represents absence of a neighboring pixel position having the same color as the color of the pixel of interest, determining that subsequently input data is uncompressed data of the pixel of interest, and outputting the uncompressed data. - View Dependent Claims (25)
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26. An image encoding apparatus which losslessly encodes image data in which one pixel is formed from a plurality of color component data, comprising:
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predictive encoding means for obtaining predicted values of respective color component data which form input pixel data of interest, by referring to color component data of an encoded pixel near the pixel of interest, and generating predictively encoded data;
color counting means for counting the number of colors contained in a plurality of pixel data at encoded pixel positions near the pixel of interest, and generating color count information;
vector information generation means for comparing the pixel data of interest with the plurality of pixel data at the encoded pixel positions near the pixel of interest, and generating vector information for specifying whether a neighboring pixel having the same color as a color of the pixel of interest exists, and when the neighboring pixel having the same color exists, specifying a position of the neighboring pixel relative to the pixel of interest;
vector information encoding means for encoding the vector information;
difference value calculation means for calculating a difference value between a plurality of pixels at encoded pixel positions near the pixel of interest, and outputting determination information representing whether the difference value is not less than a predetermined threshold; and
selection means for selecting one of said vector information encoding means and said predictive encoding means on the basis of the color count information counted by said color counting means and the determination information obtained by said difference value calculation means. - View Dependent Claims (27, 28, 29)
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30. A method of controlling an image encoding apparatus which losslessly encodes image data in which one pixel is formed from a plurality of color component data, comprising:
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a predictive encoding step of obtaining predicted values of respective color component data which form input pixel data of interest, by referring to color component data of an encoded pixel near the pixel of interest, and generating predictively encoded data;
a color counting step of counting the number of colors contained in a plurality of pixel data at encoded pixel positions near the pixel of interest, and generating color count information;
a vector information generation step of comparing the pixel data of interest with the plurality of pixel data at the encoded pixel positions near the pixel of interest, and generating vector information for specifying whether a neighboring pixel having the same color as a color of the pixel of interest exists, and when the neighboring pixel having the same color exists, specifying a position of the neighboring pixel relative to the pixel of interest;
a vector information encoding step of encoding the vector information;
a difference value calculation step of calculating a difference value between a plurality of pixels at encoded pixel positions near the pixel of interest, and outputting determination information representing whether the difference value is not less than a predetermined threshold; and
a selection step of selecting one of the vector information encoding step and the predictive encoding step on the basis of the color count information counted in the color counting step and the determination information obtained in the difference value calculation step.
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31. A computer program which is loaded into a computer and executed to function as an image encoding apparatus that losslessly encodes image data in which one pixel is formed from a plurality of color component data, functioning as:
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predictive encoding means for obtaining predicted values of respective color component data which form input pixel data of interest, by referring to color component data of an encoded pixel near the pixel of interest, and generating predictively encoded data;
color counting means for counting the number of colors contained in a plurality of pixel data at encoded pixel positions near the pixel of interest, and generating color count information;
vector information generation means for comparing the pixel data of interest with the plurality of pixel data at the encoded pixel positions near the pixel of interest, and generating vector information for specifying whether a neighboring pixel having the same color as a color of the pixel of interest exists, and when the neighboring pixel having the same color exists, specifying a position of the neighboring pixel relative to the pixel of interest;
vector information encoding means for encoding the vector information;
difference value calculation means for calculating a difference value between a plurality of pixels at encoded pixel positions near the pixel of interest, and outputting determination information representing whether the difference value is not less than a predetermined threshold; and
selection means for selecting one of said vector information encoding means and said predictive encoding means on the basis of the color count information counted by said color counting means and the determination information obtained by said difference value calculation means. - View Dependent Claims (32)
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Specification