1 TTM4142 Networked Multimedia Systems Video Basics Image and Video Lossless Compression Leif Arne Rønningen Autumn 2008
TTM4142 Networked Multimedia Systems Video Basics Image and Video Lossless Compression
Jan 23, 2016
TTM4142 Networked Multimedia Systems Video Basics Image and Video Lossless Compression. Leif Arne Rønningen Autumn 2008. Graphics and Image Data Representations. Large number of (file) formats, PDF, JPEG, GIF, PNG, BMP 8 bit Gray-Level Images 24 bit Color Images, RGB - PowerPoint PPT Presentation
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1
TTM4142 Networked Multimedia Systems
Video BasicsImage and Video
Lossless Compression
Leif Arne Rønningen
Autumn 2008
2
Graphics and Image Data Representations
• Large number of (file) formats, PDF, JPEG, GIF, PNG, BMP
• 8 bit Gray-Level Images
• 24 bit Color Images, RGB
• Color Lookup Table - LUT
• Dithering
3
Color in Image and Video
Spectral power distribution of daylight
Wavelength (nm)
4
Human Vision
5
CIE tristimulus values
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7
Color Models in VideoYUV – PAL and CCIR 601 digital videoYCrCb – JPEG, MPEG, ITU-R 601-4
8
Fundamental Video Concepts
• Component Video, RGB, YUV, YCrCb
• Composite Video, chrominance and luminance signals on single carrier
• S-Video, separated video, one wire for luminance, one wire for composite chrominance
• Analog Video, PAL, interlaced scan, blanking intervals h, v
• Digital Video, YCrCb - chroma subsampling
9
Digital Video
10
HDTV
H.264, (MPEG-4 part 10)
11
Lossless Compression AlgorithmsInformation theoryAlphabet S =
Entropy
12
Run-length Coding
The string AABACCCCCCCCCCDEAB can be coded as
!02ABA!10CDEAB
Which is 14 instead of 18 characters
! Must be reserved
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LZW Compression
• With this algorithm, the encoder and decoder build up the same dictionary of recognized strings from a stream dynamically. Each string is given a codeword. The encoder sends short codewords instead of long strings.
• See Li and Drew for details
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Arithmetic Coding, Sequence to be coded: CAEE$
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Arithmetic Coding
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Arithmetic Coding, Decoding
• The coded sequence CAEE$ ends up with the interval [0.33184, 0.3322)
• Find the shortest binary number that is within this interval, 0.01010101 <=> 0.33203125 (procedure 7.2 in book)
• Note that only 8 bits is needed!
• For decoding, go the opposite way of that in the previous slide
• 0.33203125 is in Low-High interval for C
• (0.33203125-0.3)/0.2 = 0.16015624, an A
• and so on
19
Comparing some lossless compression schemes
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