Example of Digital image F 01 - Khoa CNTT-HVKTQS
Transcript of Example of Digital image F 01 - Khoa CNTT-HVKTQS
Image Processing
Example of Digital image
Fine name: F_01.JPGType of file: JPEG Image
Width: 512
Height: 768
Resolution: 96
Bit Depth: 24
Size: 46,744 bytes
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Application Fields: Medicine
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Application Fields: Geology
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Application Fields: Image Enhancement
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Application Fields: Entertainment
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f(x,y) – color value of pixel at (x,y)
Digital image is set {f(x,y), for all pixels (x,y)}
or { f(x,y), 1≤x ≤W, 1≤y≤H }
x
y
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Gray scale
The intensity of a monochrome image at any point (x,y) is called gray level of the image at the point (x,y) :
ℓ = f(x, y)
The range [Lmin, Lmax], where Lmin ≤ ℓ ≤ Lmax, is called
the gray scale.
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Neighbors of a Pixel Let P is a pixel at coordinate (x, y).Then, P has •two horizontal and •two vertical neighbors at
(x+1, y), (x-1, y), (x, y-1), (x, y+1) (1)
The set (1) is called The set (1) is called 44--neighbors of P.neighbors of P.
P(x,yP(x,y))
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Neighbors of a Pixel Let P is a pixel at coordinate (x, y). The 4 diagonal neighbors of P:(x-1, y-1), (x-1, y+1), (x+1, y-1), (x+1, y+1) (2)
The set (1)&(2), The set (1)&(2), denoted by N8(P), is denoted by N8(P), is called 8called 8--neighbors of P.neighbors of P.
P(x,y)
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Color Model Color Fundamentals
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Color Model Color Fundamentals
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Color ModelTotal of 6-7.000.000 cones in the human eye. They are divided into 3 principal sensing categories, corresponding to red, green, blue light.
Approximately, Approximately, 65% of all 65% of all cones are cones are sensitive to RED sensitive to RED lightlight
Approximately, 33% Approximately, 33% are sensitive to are sensitive to GREEN lightGREEN light
And, approximately, 2% are And, approximately, 2% are sensitive to BLUE light (but the sensitive to BLUE light (but the blue cones are the most blue cones are the most sensitive)sensitive)
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Color ModelThe International Commission on Illumination designated (1931) the following specific wavelength values to the three primary colors:
BLUE = 435.8 nm,BLUE = 435.8 nm,
GREEN = 546.1 nm, GREEN = 546.1 nm,
RED = 700 nm RED = 700 nm
CIE standards CIE standards
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Color Model
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Color Model
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Color Model
Mỗi mô hình màu gồm ba màu, ví dụ: {red, green, blue}, hoặc {cyan, magenta, yellow}
Ảnh xám:Mỗi điểm ảnh có các thành phầnmàu bằng nhau{red = a, green = a, blue= a},a – mức xám
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Color Model
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Pixels Let P(x, y) is some (discrete) point in the image, and f(P) is vector value of point P, eg.,
f(P) = [R(P), G(P), B(P)] if I is the color image and, f(P) is called intensity or gray level if I is dark-gray image (image have dark gray-level distributions)
The pair P & f(P)
is called a pixel (stand for picture element). Usually, used note f(x, y) to sign a pixel, where x, y are spatial coordinates.
Image Processing
Pixels Let P(x, y) is some (discrete) point in the image, and f(P) is vector value of point P, eg.,
f(P) = [R(P), G(P), B(P)] if I is the color image and, f(P) is called intensity or gray level if I is dark-gray image (image have dark gray-level distributions)
The pair P & f(P)
is called a pixel (stand for picture element). Usually, used note f(x, y) to sign a pixel, where x, y are spatial coordinates.
Một số phép toán xử lý ảnh
Nén dữ liệu ảnh
Size of Image file D.JPG is 4,781 bytes.Size of Image file D.BMP is 65,322 bytes.
Lọc nhiễu
Một số phép toán xử lý ảnh
Phân đoạn ảnh
Một số phép toán xử lý ảnh
Thủy ấn (Watermarking)
An image with visible An image with visible
digital watermarking. The digital watermarking. The
text text
""Brian Brian KellKell 20062006" "
can be seen across the can be seen across the
center of the image.center of the image.
Một số phép toán xử lý ảnh
Nhận dạng
Who?Who?
Một số phép toán xử lý ảnh
Origin image
Histogram equalization
--brightnessbrightness +brightness+brightness
+contrast -contrast
γγγγγγγγ=1.25=1.25 γγγγγγγγ=0.9=0.9
negativenegativebitbit--plan 5plan 5
Biến đổi điểm ảnh
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How to practice and what is more reading?A typical BMP file usually contains the following blocks of data:
BMP File Header Stores general information BMP File Header Stores general information about the BMP file.about the BMP file.
Bitmap Information (DIB Bitmap Information (DIB header)Storesheader)Stores detailed detailed information about the bitmap image.information about the bitmap image.
Color Color PaletteStoresPaletteStores the definition of the colors the definition of the colors being used for indexed color bitmaps.being used for indexed color bitmaps.
Bitmap Data Stores the actual image, pixel by Bitmap Data Stores the actual image, pixel by pixel.pixel.
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How to practice and what is more reading?
start size name stdvalue Purpose
1 2 bfType 19778 must always be set to 'BM' to declare that
this is a .bmp-file.
3 4 bfSize ?? specifies the size of the file in bytes.
7 2 bfReserved1 0 must always be set to zero.
9 2 bfReserved2 0 must always be set to zero.
11 4 bfOffBits 1078 specifies the offset from the beginning of
the file to the bitmap data.
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start size name stdvalue Purpose
15 4 biSize 40
specifies the size of the
BITMAPINFOHEADER structure, in
bytes.
19 4 biWidth 100 specifies the width of the image, in
pixels.
23 4 biHeight 100 specifies the height of the image, in
pixels.
27 2 biPlanes 1 specifies the number of planes of the
target device, must be set to zero.
29 2 biBitCount 8 specifies the number of bits per pixel.
31 4 biCompression 0 Specifies the type of compression,
usually set to zero (no compression).
35 4 biSizeImage 0
specifies the size of the image data, in
bytes. If there is no compression, it is
valid to set this member to zero.
39 4 biXPelsPerMeter 0
specifies the the horizontal pixels per
meter on the designated targer device,
usually set to zero.
43 4 biYPelsPerMeter 0
specifies the the vertical pixels per
meter on the designated targer device,
usually set to zero.
47 4 biClrUsed 0
specifies the number of colors used in
the bitmap, if set to zero the number
of colors is calculated using the
biBitCount member.
51 4 biClrImportant 0
specifies the number of color that are
'important' for the bitmap, if set to
zero, all colors are important.
How to practice and what is more reading?How to practice and what is more reading?
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Note:biBitCount actually specifies the color resolution of the bitmap. The possible values are:
1 (black/white); 4 (16 colors); 8 (256 colors); 24 (16.7 million colors).
The biBitCount data element also decides if there is a color table in the file and how it looks like:
In 1-bit mode the color table has to contain 2 entries (white, black).In 4-bit mode the color table must contain 16 colors.In 8-bit mode the color table contains 256 entries. In 24-bit mode, the palette is omitted.
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The color paletteThe color palette
start size name stdvalue purpose
1 1 rgbBlue - specifies the blue part of the color.
2 1 rgbGreen - specifies the green part of the color.
3 1 rgbRed - specifies the red part of the color.
4 1 rgbReserved - must always be set to zero.
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Bitmap data:
It depens on the BMP File Header structure how the pixel data is to be interpreted.
Another important thing is that the number of bytes in one row must always be adjusted to fit into the border of a multiple of four.
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Bitmap data:
In 1-bit mode every byte in the image data represents eight pixels. They are arranged from higher to lower bit for pixels from left to right.
In 4-bit mode every byte in the image data represents two pixels. The byte is split into the higher 4 bits and the lower 4 bits and each value of them points to a palette entry.
In 8-bit mode every byte represents a pixel. The value points to an entry in the color table.
In 24-bit mode, three bytes represent one pixel. The first byte represents the red part, the second the green and the third the blue part. No Color
Table
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Ôn tập, tự học, thực hành:
1. Khái niệm ảnh số. Mô tả ảnh xám, ảnh màu.
2. Một số bài toán trong xử lý ảnh số.
3. Một số ứng dụng của xử lý ảnh số.
4. Các bước chính trong một hệ thống xử lý ảnh.
5. Sự hình thành ảnh trong mắt người. Quá trình thu nhậnảnh. Số hóa ảnh.
6. Mô hình màu RGB, HSI và công thức chuyển đổi giữachúng.
7. Viết chương trình hiển thị ảnh, thay đổi màu của mộtsố điểm ảnh.
8. Viết chương trình biến đổi từ ảnh màu (đa sắc) sang ảnh xám (và ngược lại?).
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http://fit.mta.edu.vn/~tinhdt/cuorsesdetail-8-75.aspx
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