JP2009010923A5 - - Google Patents

Claims (18)

A method for reducing the resolution of a digital color image (100) performed on at least one of an image sensor, a processing circuit, an external processing device, a processing device, or a computer processor, including any combination thereof, comprising :
The digital color image comprises at least three different colors color mask (102) pixels arranged in the (101), the pixel is first pin Kuseru (R), the second pin Kuseru (G), the third peak wherein Kuseru the (g), and the fourth pin Kuseru (B),
The method
And recording a digital color image, the use of color mask (102),
· First select pin Kuseru (R) of the first n × n is an outline of a positive square (SR), the first macro-pixel by using a value of their selected n × n pixels (202, RR) and generating a value,
· Select the first positive rectangular second peak Kuseru of n × n is an outline of a second positive square which is rotated 45 degrees with respect to (SR) is shifted horizontally (SG) (G), are those selected generating a second macro values of pixels (202, GG) using the values of n × n pixels has,
· Select the first positive rectangular third third peak Kuseru of n × n is an outline of a positive square (Sg) which is rotated and shifted vertically 45 degrees with respect to (SR) (g), are those selected generating a value of a third macro pixels (202, gg) using the values of n × n pixels has,
From the n × n fourth pixel (B), which is the outline of the fourth square (SB) shifted in a diagonal direction in the same direction with respect to the first square (SR), greater than 0 and less than n × n Selecting M pixels that are and generating a value of a fourth macro pixel (202, BB) using the value of the M pixels;
Including
Said first, second, and third macro pixels each, wherein macro pixels (202) a value determined or Ru optical center by relative position location of pixels used to generate the (201, CR, CG , Cg)
The first, pixel used to generate the values of the second and third macro pixels, said first, second, position of the optical center of the third macro pixels each (201) of the first, second, inside the third macro pixels each is selected to be the same position, these optical centers form a uniform Ichigu lid (WG),
The method wherein n is an integer value greater than 1 . Wherein A pixel and the resulting optical center of the selected M (CB, 201), and shifted by a predetermined distance (D) relative to the average Ichigu lid (WG),
It said distance (D) is dependent on both the position of the M pixels relative to the the M fourth positive square (SB),
When n × n is a non-even integer, M = n × n results in D = 0,
When · n × n is an even integer, for several values of M, M = n × n is D> 0 and M <n × n is ing results in D = 0, The method of claim 1. It said distance (D) is dependent on both the position of the M pixels relative to the the M fourth positive square (SB),
When · n × n = 4, M = 1 would result in D = 0 and M> 1 is D> 0, the method of claim 2. It said distance (D) is dependent on both the position of the M pixels relative to the the M fourth positive square (SB),
When · n × n = 16, M = 1 and M = 9 are results in D = 0, The method of claim 2. The second positive square (SG) overlaps with the first positive square (SR),
The third positive square (Sg) overlaps with the first positive square (SR),
The fourth positive square (SB) overlaps with the first, second, and third positive square one or more, The method of claim 1. n × n = 4 and M = 1,
The method
- one selects the fourth pin Kuseru (B), generating a value of a fourth macro pixels (BB) using a value of the one of the fourth pixel
Including
Wherein A wherein the selected pixel resulting optical center (CB), with the average Ichigu distance to the lid (WG) (D) is 0, the remaining three fourth pin Kuseru (B) is ignored Ru method of claim 1. n × n = 4 and M = 4,
The method
- four fourth select pin Kuseru (B), generating a value of the fourth macro pixels (BB) using the values of the four fourth pixels
Including
The selected pixel, that provide optical center (CB) having a predetermined distance (D) relative to the average Ichigu lid (WG), The method of claim 1. n × n = 4 and M = 3,
The method
· The average Ichigu distance to the lid (WG) (D) to select one of the fourth pin Kuseru (B) of 0, the two closest to one fourth peak Kuseru selected in the first fourth select pin Kuseru (B), to produce a value of the fourth macro pixels (BB) using three fourth pin Kuseru that said selected that the
Including
The selected pixels to provide an optical center (CB) having a distance (D) which is reduced relative to the average Ichigu lid (WG), the fourth pin Kuseru remaining one is ignored, claims 1 method. Reduces the resolution of digital color images performed in at least one of an image sensor, processing circuit, external processing unit, processing unit, or computer processor including any combination thereof by a factor of 2 in both the horizontal and vertical directions A way to
The digital color image is arranged in multiple sets of 16 pixels;
Each of said set comprises four first pin Kuseru (R), the four second pin Kuseru (G), four third pin Kuseru (g), and four fourth pin Kuseru (B),
Wherein each set, the first macro-pixel (RR), a second macro pixel (GG), the values of the four macro pixels including a third macro pixels (gg), and a fourth macro pixels (BB) Compose a collection of pixels to generate,
The method
And to record the digital color image using the color mask,
For each set of 16 pixels
And that - four first pin Kuseru (R1, R2, R3, R4 ) is selected, to generate a value of the first macro-pixel by using a value of those four pixels (202, RR),
And that - four second pin Kuseru (G1, G2, G3, G4 ) is selected, to generate a value of the second macro-pixel by using a value of those four pixels (202, GG),
And that - the four third pin Kuseru (g1, g2, g3, g4 ) is selected, to generate a value of the third macro pixel using the values of these four pixels (202, gg),
Including
It said first, respectively second, and third macro pixels has an optical center (201) determined or Ru by relative position location of pixels used to generate the value of the macro-pixel (202) ,
The first, pixel used to generate the values of the second and third macro pixels (202), said first, second, and third macro pixels each optical center of (201) position is the first, second, and are selected third macro to be the same position within the pixel each, these optical centers form a uniform Ichigu lid (WG),
The value of the fourth macro pixels (BB),
- one fourth select pin Kuseru (B1), and generating a value of the fourth macro pixels (BB) using a value of the one of the fourth pixel, which is the selected and it pixels provides the distance optical center of (D) is 0 (CB) to the equalizing Ichigu lid (WG), the remaining three fourth pin Kuseru (B2-B4) are ignored,
- Four fourth select pin Kuseru (B1-B4), and generating a value of the fourth macro pixels (BB) using the values of the four fourth pixel, the selection and that pixel is to provide an optical center of a predetermined distance (D) (CB) to the equalizing Ichigu lid (WG),
· The average Ichigu distance to the lid (WG) (D) to select one of the fourth pin Kuseru (B4) of 0, the most to the first one of the fourth pin Kuseru selected (B4) and generating a value for selecting two of the fourth pin Kuseru close (B2, B3), using said three fourth pin Kuseru of said selected fourth macro pixels (BB), the selection and to provide an optical center (CB), a fourth peak Kuseru the remaining one is ignored pixels having a distance (D) which is reduced relative to the average Ichigu lid (WG),
A method that includes generating using one of the following: The color mask, one red pixel (R), a Bayer mask comprising two green pixels (g, G), and one blue pixel (B), The process of claim 1 or 9. Said first pin Kuseru red pixels (R), said second pin Kuseru green pixel (G), the third pin Kuseru is green pixels (g), the fourth pin Kuseru blue pixel (B), 10. A method according to claim 1 or 9. Said first, second, third, and fourth pin Kuseru (R, G, g, B ) with the value of the selected pixel of each are added, the first, second, third, and fourth 4 macro pixel (RR, GG, gg, BB ) that generates the respective values, the method of claim 1 or 9. It said first, second, third, and fourth pin Kuseru (R, G, g, B ) the value of each of the selected pixels are averaged, the first, second, third, and fourth generate macro pixels (RR, GG, gg, BB ) each value, method according to claim 1 or 9. A digital comprising pixels (101) arranged in at least three different color masks (102) implemented in one or more of an image sensor (1213), processing circuit (1215), external processing unit (1211) A system (1210) configured to reduce the resolution of a color image (100) comprising:
The pixel includes a first pin Kuseru (R), a second pixel (G), third pin Kuseru (g), and the fourth pin Kuseru (B),
The system
· First select pin Kuseru (R) of the first n × n is an outline of a positive square (SR), the first macro-pixel by using a value of their selected n × n pixels (202, RR) and generating a value,
· Select the first positive rectangular second peak Kuseru of n × n is an outline of a second positive square which is rotated 45 degrees with respect to (SR) is shifted horizontally (SG) (G), are those selected generating a second macro values of pixels (202, GG) using the values of n × n pixels has,
· Select the first positive rectangular third third peak Kuseru of n × n is an outline of a positive square (Sg) which is rotated and shifted vertically 45 degrees with respect to (SR) (g), are those selected generating a value of a third macro pixel using the values of n × n pixels (202, gg) was
It includes selection means for performing (1220),
Said first, second, and third macro pixels each, wherein macro pixels (202) a value determined or Ru optical center by relative position location of pixels used to generate the (201, CR, CG , Cg)
Said first, second, pixel used to generate the value of the third macro pixels, said first, second, and third macro pixels (202) each of said optical center of (201) position is the first, second, and are selected third macro to be the same position within the pixel each, these optical centers form a uniform Ichigu lid (WG),
The system (1210) further includes
Fourth from the fourth peak Kuseru of n × n is an outline of a positive square (SB) (B) which is shifted diagonally oriented in the same direction the first relative positive square (SR), greater than 0 n × n select a is M pixels below, the system comprising selection means (1220) for generating a value of a fourth macro pixel using the values of the M pixels (BB). A computer program that can Ru can be reduced resolution of the color mask (102) a digital color image (100) recorded using,
The digital color image (100) comprises at least three different colors arranged in color mask of pixels (101), the pixel is first pin Kuseru (R), the second pin Kuseru (G), the third peak wherein Kuseru the (g), and the fourth pin Kuseru (B),
Computer program which is configured to implement 請 Motomeko 1 or method of claim 9. A camera (1212) or system (1210) comprising an electronic chip device (1213, 1215) configured to reduce the resolution of a digital color image (100),
The digital color image comprises at least three different colors color mask (102) pixels arranged in the (101), the pixel is first pin Kuseru (R), the second pin Kuseru (G), the third peak It includes Kuseru (g), the fourth pin Kuseru (B),
The electronic chip device performs at least one of the following steps a, b, c, or d to at least a first square (SR), a second square (SG), a third square (Sg), or Selecting means (1220) configured to select pixels that are outlines of a fourth square (SB) to generate at least one of a first, second, third, or fourth macropixel ;
· A) said first first select pin Kuseru (R) of the n × n is an outline of a positive square (SR), the first macro-pixel by using a value of their selected n × n pixels ( 202, generating a value of RR),
· B) the second second select pin Kuseru (G) of the n × n is an outline of a positive square (SG), said second macro pixel with the value of their selected n × n pixels ( 202, generating a value of GG),
· C) the third select positive square (third pin Kuseru (g of n × n is an outline Sg)), the third macro pixel with the value of their selected n × n pixels ( 202, generating a value of gg),
· D) said fourth forward from square (fourth pin Kuseru of n × n is an outline SB) (B), and select the M pixels or less large n × n from 0, the value of the M pixels generating a value of the fourth macro pixels (BB) using a
n is an integer value greater than 1,
The second square (SG) is rotated 45 degrees and horizontally shifted with respect to the first square (SR),
The third square (Sg) is rotated 45 degrees with respect to the first square (SR) and is vertically shifted.
The fourth square (SB) faces the same direction with respect to the first square (SR) and is at a position shifted diagonally.
Said first, second, and third macro pixels each, wherein macro pixels (202) a value determined or Ru optical center by relative position location of pixels used to generate the (201, CR, CG , Cg)
The first, pixel used to generate the values of the second and third macro pixels, said first, second, and third macro pixels (202) each of said optical center (201) wherein the position first, second, and internally is chosen to be the same position of the third macro pixels each, these optical centers form a uniform Ichigu lid (WG),
Said camera (1212) or system (1210), the electronic chip step a that have not been executed by the device, b, c or configured camera (1212) to give any remaining steps of d, or system (1210 ) A 請 Motomeko 16 of electronic chip devices (1213,1215),
The electronic chip device is
· Said electronic chip device (1213,1215) step is performed by a, b, and the value of the macro pixels corresponding to one of c, and d,
· Said electronic chip step a that have not been executed by the device, b, the first corresponding to one of c, and d, the value of the second, third, and / or the fourth one of pin Kuseru
Is configured to provide output image data including
The output image data, the camera is configured to reduce the resolution of the digital color image (1212), the system (1210), or the external processing apparatus (1211) comprises first and value of the macro pixel in said output image data 1, second, third, and / or the fourth one of peak Kuseru value and easily slave chip device collector that is formatted so as to identify. The output image data, the electronic chip device (1213,1215), a camera (1212), the system (1210), or was predetermined for exchanging data between any of the external processing apparatus (1211) The electronic chip device (1213, 1215) of claim 17, wherein the electronic chip device (1213, 1215) is formatted based on a format.