IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
UP-0117292
(2005-04-29)
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등록번호 |
US-7733355
(2010-06-29)
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우선권정보 |
KR-10-2004-0030652(2004-04-30) |
발명자
/ 주소 |
- Ok, Hyunwook
- Lee, Seongdeok
- Kim, Changyeong
- Choe, Wonhee
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출원인 / 주소 |
- Samsung Electronics Co., Ltd.
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
2 |
초록
▼
A method of and apparatus for transforming a three color signal into a multi-color signal. A method of transforming a color signal having three color components into a color signal having first through n-th color components, includes: producing a lookup table having signal values of (n-3) of n color
A method of and apparatus for transforming a three color signal into a multi-color signal. A method of transforming a color signal having three color components into a color signal having first through n-th color components, includes: producing a lookup table having signal values of (n-3) of n color components of a color within a three-dimensional color space and reference variables corresponding to the signal values of the (n-3) color components; extracting the reference variables from an input color signal; determining the signal values of the (n-3) color components corresponding to the extracted reference variables from the lookup table; and producing a color signal having n color components using the determined signal values of the (n-3) color components.
대표청구항
▼
What is claimed is: 1. A method of transforming a color signal having three color components into a color signal having more than three color components, represented by first through n-th color components, the method comprising: producing a lookup table having signal values of (n-3) of n color comp
What is claimed is: 1. A method of transforming a color signal having three color components into a color signal having more than three color components, represented by first through n-th color components, the method comprising: producing a lookup table having signal values of (n-3) of n color components of a color within a three-dimensional color space and reference variables corresponding to the signal values of the (n-3) color components; extracting the reference variables from an input color signal; determining the signal values of the (n-3) color components corresponding to the extracted reference variables from the lookup table; and producing a color signal having n color components using the determined signal values of the (n-3) color components based on a removal of determined respective color component information from the input color signal. 2. The method of claim 1, wherein the producing a color signal includes: removing a signal having signal values of the determined (n-3) color components from the input color signal; and calculating signal values of three color components remaining by removing the (n-3) color components from the input color signal. 3. The method of claim 2, wherein the removing a signal includes: producing a color signal of a three-dimensional color space using the determined signal values of the (n-3) color components; and removing the produced color signal from the input color signal. 4. The method of claim 1, further comprising displaying the color signal having the n color components. 5. A method of transforming a color signal having three color components into a color signal having more than three color components, represented by first through n-th color components, the method comprising: producing a lookup table having signal values of (n-3) of n color components of a color at a boundary of a three-dimensional color space and reference variables corresponding to the signal values of the (n-3) color components; extracting the reference variables from an input color signal; determining the signal values of the (n-3) color components corresponding to the extracted reference variables from the lookup table; and producing a color signal having n color components using the determined signal values of the (n-3) color components based on a removal of determined respective color component information from the input color signal. 6. The method of claim 5, wherein the reference variables are a luminance signal and a hue signal. 7. The method of claim 5, wherein the producing a color signal includes: transforming the determined signal values of the (n-3) color components of the color at the boundary of the color space into signal values of the (n-3) color components of the input color signal; removing a signal having the transformed signal values of the (n-3) color components from the input color signal; and calculating signal values of three remaining color components removing the (n-3) color components from the input color signal. 8. The method of claim 7, wherein, in the transforming of the found signal values, the found signal values of the (n-3) color components of the color at the boundary of the color space are transformed into the signal values of the (n-3) color components of the input color signal using a chroma signal of the input color signal. 9. The method of claim 7, wherein the removing a signal includes: producing a color signal of a three-dimensional color space using the transformed signal values of the (n-3) color components; and removing the produced color signal from the input color signal. 10. The method of claim 5, further comprising displaying the color signal having the n color components. 11. An apparatus for transforming a color signal having three color components into a color signal having more than three color components, represented by first through n-th color components, the apparatus comprising: a look up table LUT production unit producing a lookup table having signal values of (n-3) of n color components of a color within a three-dimensional color space and reference variables corresponding to the signal values of the (n-3) color components; a reference variable extraction unit extracting the reference variables from an input color signal having three color components; an LUT referring unit receiving the extracted reference variables and determining the signal values of the (n-3) color components corresponding to the extracted reference variables from the lookup table; and a color signal production unit producing a color signal composed of n color components using the determined signal values of the (n-3) color components based on a removal of determined respective color component information from the input color signal. 12. The apparatus of claim 11, wherein the color signal production unit includes: a three color component extraction unit removing a signal having signal values of the determined (n-3) color components from the input color signal; and a signal value calculation unit calculating signal values of three remaining color components by removing the (n-3) color components from the input color signal. 13. The apparatus of claim 12, wherein the three color component extraction unit includes: a three-color signal production unit producing a color signal of a three-dimensional color space using the determined signal values of the (n-3) color components; and a signal removal unit removing the color signal produced by the three-color signal production unit from the input color signal. 14. The apparatus of claim 11, further comprising a display unit displaying the color signal having the n color components. 15. An apparatus for transforming a color signal having three color components into a color signal having more than three color components, represented by first through n-th color components, the apparatus comprising: a look up table LUT production unit producing a lookup table having signal values of (n-3) of n color components of a color at a boundary of a three-dimensional color space and reference variables corresponding to the signal values of the (n-3) color components; a reference variable extraction unit extracting the reference variables from an input color signal having three color components; an LUT referring unit receiving the extracted reference variables and determining the signal values of the (n-3) color components corresponding to the extracted reference variables from the lookup table; and a color signal production unit producing a color signal having n color components using the determined signal values of the (n-3) color components based on a removal of determined respective color component information from the input color signal. 16. The apparatus of claim 15, wherein the reference variables are a luminance signal and a hue signal. 17. The apparatus of claim 15, wherein the signal production unit includes: a referred value transformation unit transforming the determined signal values of the (n-3) color components of the color at the boundary of the color space into signal values of the (n-3) color components of the input color signal; a three color component extraction unit removing a signal having the transformed signal values of the (n-3) color components from the input color signal; and a signal value calculation unit calculating signal values of three remaining color components by removing the (n-3) color components from the input color signal. 18. The apparatus of claim 17, wherein the referred value transformation unit transforms the determined signal values of the (n-3) color components of the color at the boundary of the color space into the signal values of the (n-3) color components of the input color signal using a chroma signal of the input color signal. 19. The apparatus of claim 17, wherein the three color component extraction unit includes: a three-color signal production unit producing a color signal of a three-dimensional color space using the transformed signal values of the (n-3) color components; and a signal removal unit removing the color signal produced by the three-color signal production unit from the input color signal. 20. The apparatus of claim 15, further comprising a display unit displaying the color signal having the n color components. 21. A computer-readable storage medium encoded with processing instructions for causing a processor to perform a method of transforming a color signal having three color components into a color signal having more than three color components, represented by first through n-th color components, the method comprising: producing a lookup table having signal values of (n-3) of n color components of a color within a three-dimensional color space and reference variables corresponding to the signal values of the (n-3) color components; extracting the reference variables from an input color signal; determining the signal values of the (n-3) color components corresponding to the extracted reference variables from the lookup table; and producing a color signal having n color components using the determined signal values of the (n-3) color components based on a removal of determined respective color component information from the input color signal. 22. A computer-readable storage medium encoded with processing instructions for causing a processor to perform a method of transforming a color signal having three color components into a color signal having more than three color components, represented by first through n-th color components, the method comprising: producing a lookup table having signal values of (n-3) of n color components of a color at a boundary of a three-dimensional color space and reference variables corresponding to the signal values of the (n-3) color components; extracting the reference variables from an input color signal; determining the signal values of the (n-3) color components corresponding to the extracted reference variables from the lookup table; and producing a color signal having n color components using the determined signal values of the (n-3) color components based on a removal of determined respective color component information from the input color signal. 23. An apparatus for transforming an input color signal having three color components into a color signal having more than three color components, represented by first through n-th color components, comprising: a look up table (LUT) production unit producing a lookup table having signal values of a specified number of n color components of a color within a three-dimensional color space and reference variables corresponding to the signal values of the specified number of color components; a LUT referring unit receiving extracted reference variables from the input color signal and determining the signal values of the specified number of color components corresponding to the extracted reference variables; and a color signal production unit producing a color signal having n color components based on a color signal using the determined signal values of the specified number of color components, a comparison of the determined signal values of the specified number of color components and the input color signal, and another color signal representing a different conversion of the input color signal based on a result of the comparison. 24. The apparatus of claim 23, wherein the specified number is n-3. 25. An apparatus for transforming an input color signal having three color components into a color signal having more than three color components, represented by first through n-th color components, comprising: a look up table (LUT) production unit producing a lookup table having signal values of a specified number of n color components of a color within a three-dimensional color space and reference variables corresponding to the signal values of the specified number of color components; a LUT referring unit receiving extracted reference variables from the input color signal and determining the signal values of the specified number of color components corresponding to the extracted reference variables; and a color signal production unit producing a color signal having n color components based on a color signal using the determined signal values of the specified number of color components and another color signal representing a different conversion of the input color signal using the specified number of color components, wherein the three-dimensional color space is a linearized LAB (LLAB) space, signals L, A, and B are produced from transformed Y and C signal values, and the color signal of the three-dimensional color space is calculable by the following equation LLAB cy = [ p c p y q c q y r c r y ] × [ transformed value c transformed value y ] , and wherein coefficients pc, py, qc, qy, rc and ry are determined according to characteristics of color components determined from the lookup table. 26. The apparatus of claim 25, wherein the color signal having the three color components is calculable using the following equation: LLABRemain=LLABln−LLABcy, and wherein LLLARemain denotes a color having three colors in the LLAB three-dimensional color space. 27. The apparatus of claim 26, wherein signal values of R, G, and B color components are calculable by the following equation: [ R G B ] = [ α r β r γ r α g β g γ g α b β b γ b ] × LLAB Remain , wherein coefficients αr, αg, αb, βr, βg, βb, γr, γg, and γb are determined according to characteristics of the three remaining color components, namely, R, G, and B color components. 28. An apparatus for transforming an input color signal having three color components into a color signal having more than three color components, represented by first through n-th color components, comprising: a look up table LUT production unit producing a lookup table having signal values of a specified number of n color components of a color at a boundary of a three-dimensional color space and reference variables corresponding to the signal values of the specified number of color components; an LUT referring unit receiving the extracted reference variables from the input color signal and determining the signal values of the specified number of color components corresponding to the extracted reference variables from the lookup table; and a color signal production unit producing a color signal having n color components based on a color signal using the determined signal values of the specified number of color components, a comparison of the determined signal values of the specified number of color components and the input color signal, and another color signal representing a different conversion of the input color signal based on a result of the comparison. 29. The apparatus of claim 28, wherein the three-dimensional color space is a linearized LLAB space, the reference variables are a luminance signal and a hue signal, and the input color signal is calculable by the following equation: Index_l = LLAB_L Index_h = arctan ( LLAB_B LLAB_A ) .
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