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COMPARATIVE STUDY OF H.264 COMPARATIVE STUDY OF H.264 INTRA FRAME CODING, JPEG, INTRA FRAME CODING, JPEG,
JPEG-LS, JPEG-2000 AND JPEG-JPEG-LS, JPEG-2000 AND JPEG-XRXR
EE 5359 Multimedia Project-Shreyanka Subbarayappa
Electrical Engineering Department
Need for CompressionNeed for Compression
• Reduce redundancy of the image or video data in order to be able to store or transmit data in an efficient form.•Compressed video can effectively reduce the bandwidth required to transmit video via terrestrial broadcast, via cable TV, or via satellite TV services •Increasing importance of multimedia communication
NEED FOR IMAGE OR VIDEO
COMPRESION
Lossless or Lossy Lossless or Lossy CompressionCompression Lossless compression
◦ There is no information loss, and the image can be reconstructed exactly the same as the original
◦ Applications: Medical imagery, Archiving
Lossy compression ◦ Information loss is
tolerable.◦ Applications:
commercial distribution (DVD) and rate constrained environment where lossless methods cannot provide enough compression ratio
VIDEO COMPRESSION VIDEO COMPRESSION STANDARDSSTANDARDS
STANDARD SOFTWAREMAIN
APPLICATION
YEAR
JPEG JPEG-Baseline Ref.
IMAGE 1992-1999
JPEG-LS (Part 1)
(Part 2
JPEG-LS DLL IMAGE 19992000
JPEG2000 JasPer IMAGE 2000
JPEG-XR JPEG-XR ref. IMAGE 2009
H.264/MPEG-4 part 10
JM software ADVANCED VIDEO CODING
2003
JPEG ENCODER AND JPEG ENCODER AND DECODERDECODER
ENCODER [12]
DECODER[12]
JPEG-Baseline• The name "JPEG" stands for Joint Photographic Experts
Group.• 8x8 block based DCT• Scalar quantization • Different quantization tables for luminance and
chrominance components• Huffman coding
JPEG2000• Extensions are .jp2, .j2k, .jpf, .jpx, .jpm,.mj2• Relies on wavelet transform• Another difference, in comparison with JPEG, is in
terms of visual artifacts JPEG 2000 produces ringing artifacts. The codestream obtained after compression of an image with JPEG 2000 is scalable in nature, meaning that it can be decoded in a number of ways; for instance, by truncating the codestream at any point.
JPEG-LS It uses a predictive scheme
based on the three nearest (causal) neighbors (upper, left, and upper-left.
The lossless coding process employs a simple predictive coding model called differential pulse code modulation (DPCM)
Once all the samples are predicted, the differences between the samples can be obtained and entropy-coded in a lossless fashion using Huffman coding or arithmetic coding.
JPEG-XR• JPEG XR (Joint Photographic Experts Group- Extended Range) was formerly known as Windows Media Photo and HD Photo• File extensions are given as .hdp, .jxr, .wdp• HD Photo uses a type of integer transform employing a lifting scheme, which resembles a 4 × 4 DCT but is lossless (exactly invertible).
Block Diagram of JPEG-LS Encoder
[13]
H.264 BLOCK DIAGRAMH.264 BLOCK DIAGRAM
Encoder[14]
DECODER [15]
H.264/MPEG-4 AVC
H.264/MPEG-4 AVC is a block-oriented motion-compensation-based codec standard developed by the ITU-T Video Coding Experts Group (VCEG) together with the ISO/IEC Moving Picture Experts Group (MPEG)
Provides good video quality at substantially lower bit rates than previous standards.
H.264 is used in such applications as players for Blu-ray Discs, videos from YouTube and the iTunes Store, web software such as Adobe Flash Player and Microsoft Silverlight.
Image Quality MeasuresImage Quality MeasuresCriteria to evaluate compression qualityTwo types of quality measures Objective quality measure- PSNR, MSE Structural quality measure- SSIMMSE and PSNR for a NxM pixel image are
defined as
(1)
(2)
where x is the original image and y is the reconstructed image. M and N are the width and height of an image and ‘L’ is the maximum pixel value in the NxM pixel image.
M
m
N
n
nmynmxNM
MSE1 1
2,,*
1
MSE
LPSNR
2
10log10
Structural Similarity Structural Similarity Method[SSIM]Method[SSIM]
SSIM emphasizes that the human visual system is highly adapted to extract structural information from visual scenes. Therefore, structural similarity measurement should provide a good approximation to perceptual image quality.
The SSIM index is defined as a product of luminance (l), contrast (c) and structural (s) comparison functions.
….[1]
where , α>0, β>0 and γ >0 are parameters used
to adjust the relative importance of the three components
• where μ is the mean intensity, and σ is the standard deviation as a round estimate of the signal contrast. C1 and C2 are constants. M is the number of samples in the quality map.
…[2]
….[3]
ReferencesReferences[1] AIC website: http://www.bilsen.com/aic/
[2] T. Wiegand, G. Sullivan, G. Bjontegaard and A. Luthra, “Overview of the H.264/AVC Video Coding Standard”, IEEE Transactions on Circuits and Systems for Video Technology, vol. 13, pp.560-576, July 2003
[3] K. Sayood, “Introduction to Data Compression”, Third Edition, Morgan Kaufmann Publishers, 2006.
[4] P. Topiwala, T. Tran and W.Dai, “Performance comparison of JPEG2000 and H.264/AVC high profile intra-frame coding on HD video sequences,” Proc. SPIE Int’l Symposium, Digital Image Processing, San Diego, Aug. 2006.
[5] G. K. Wallace, “The JPEG still picture compression standard,” Communication of the ACM, vol. 34, pp. 31-44, April 1991.
[6] I. Richardson, “The H.264 advanced video compression standard”, Wiley publication, 2nd edition, 2010.
[7] JPEG reference software website: ftp://ftp.simtel.net/pub/simtelnet/msdos/graphics/jpegsr6.zip
[8] JPEG2000 latest reference software (Jasper Version 1.900.0) Website: http://www.ece.uvic.ca/~mdadams/jasper/
[9] JPEG-LS reference software website http://www.hpl.hp.com/loco/
[10] Microsoft HD photo specification: http://www.microsoft.com/whdc/xps/wmphotoeula.mspx
[11] H.264/AVC reference software (JM 17.2) Website: http://iphome.hhi.de/suehring/tml/download/
[12] JPEG Encoder and Decoder Block Diagram : http://www.cmlab.csie.ntu.edu.tw/cml/dsp/training/coding/jpeg/jpeg/decoder.htm
[13] JPEG-LS Block Diagram: http://pam.wikipedia.org/wiki/Lossless_JPEG
[14] H.264 Encoder Block Diagram : http://conf.ncku.edu.tw/research/articles/e/20071102/2.html
[15] H.264 Decoder Block Diagram : http://www.allgosystems.com/html/h264_arm11.htm
[16] A.Skodras, C. Christopoulos and T. Ebrahimi, “The JPEG 2000 still Image Compression Standard”, IEEE Signal Processing, vol.17, pp.1-144, Jan. 2002.
[17] M. J. Weinberger, G. Seroussi, G. Sapiro, “The LOCO-I lossless image compression algorithm: principles and standardization into JPEG-LS”, IEEE Trans. on Image Processing, vol.9, pp.1309-1324, Aug. 2000.
[18] C. Christopoulos, A. Skodras, T.Ebrahimi, “The JPEG2000 still image coding system: an overview”, IEEE Trans. on Consumer Electronics, vol.46, pp.1103-1127, Nov. 2000.
[19] G. K. Wallace, “The JPEG still picture compression standard,” Communication of the ACM, vol. 34, pp. 31-44, April 1991.
[20] P. Schelkens, A. Skodras and T. Ebrahimi, “The JPEG 2000 suite”, Hoboken, NJ: Wiley, 2009.
[21] P. Topiwala, “Comparative study of JPEG2000 and H.264/AVC FRExt I-frame coding on high definition video sequences,” Proc. SPIE Int’l Symposium, Digital Image Processing, vol. 5909, issue.1, San Diego ,Aug. 2005.
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