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SMPTE Motion Imaging Journal ( Volume: 115, Issue: 10, October 2006)
[ACTIVE]

JPEG-2000 Rate Control for Digital Cinema

Metadata

Publisher
SMPTE — White Plains, NY, USA
Doc Type
Journal Article
Content Type
Original Research
Abbreviated Title
SMPTE Mot. Imag. J
Volume
115, No. 10, pp. 394–399
Abstract
Recent industry developments have made it clear that although digital cinema signals are image sequences, they will almost certainly be compressed using an intra-frame image compression method such as JPEG-2000 that operates on one frame at a time. This is in contrast to traditional inter-frame video standards such as MPEG that operate on multiple frames at once. Furthermore, recent research has shown that the coding efficiency advantages of inter-frame coding are significantly reduced for 4k digitized film content at the data rates and quality levels associated with digital cinema. This raises a number of important issues related to rate control methods, which have the goal of maximizing quality while also ensuring that the overall post-compression bit rate maintains average and peak values within the limits of the delivery and decoding systems.
Publication Date
2006-10-01
DOI
10.5594/J15132
ISSN
Print: 1545-0279 | Electronic: 2160-2492
Link
https://doi.org/10.5594/J15132
Author(s)
Michael D. Smith
bio
Michael Smith is a consultant in the area of digital imaging and signal processing, with recent work for organizations including Digital Cinema Initiatives (DCI), Warner Brothers Technical Operations, Dolby Laboratories, Cinea Inc., Path1 Networks, PhatNoise Inc., and various law firms. He is a member of SMPTE and AES. Smith received BS and MS degrees in electrical engineering from UCLA in 2001 and 2004, respectively ( miksmith@attglobal.net ).
John Villasenor
bio
John D. Villasenor received a BS degree in 1985 from the University of Virginia, a MS degree in 1986 from Stanford University, and a PhD degree in 1989 from Stanford, all in electrical engineering. From 1990 to 1992, he was with the Radar Science and Engineering section of the Jet Propulsion Laboratory in Pasadena, CA, where he developed methods for imaging the earth from space. Villasenor joined the Electrical Engineering Dept. at the University of California, Los Angeles (UCLA), in 1992 and is currently a professor. He served as vice-chair of the department from 1996 to 2002. At UCLA, his research efforts lie in communications, computing, imaging and video compression, and networking. Villasenor is a senior member of the IEEE ( villa@icsl.ucla.edu ).
Copyright
© 2006 Society of Motion Picture and Television Engineers, Inc.

Bibliographic Reference(s)

  • 1. Information Technology—JPEG-2000—Image Coding System—Part 1: Core Coding System, ISO/IEC 15 444–1, 2000 . EXTERNAL
  • 2. Smith M. Villasenor J. , “Intra-frame JPEG-2000 vs. Inter-frame Compression Comparison: The Benefits and Trade-offs for Very High Quality, High-Resolution Sequences,” presented at the SMPTE Technical Conference, Pasadena, CA, Oct. 2004 . EXTERNAL
  • 3. Li Jin Lei Shawmin , “An Embedded Still Image Coder with Rate-Distortion Optimization,” IEEE Trans. on Image Proc , 8 ( 7 ): 913 – 924 , July 1999 . EXTERNAL
  • 4. Taubman David , “High-Performance Scalable Image Compression with EBCOT,” IEEE Trans. on Image Proc , 9 ( 7 ): 1158 – 1170 , July 2000 . EXTERNAL
  • 5. Taubman David S. Marcellin Michael W. , JPEG2000—Image Compression Fundamentals, Standards and Practice , Norwell: Kluwer Academic Publishers , Dordrecht , 2002 . EXTERNAL
  • 6. Dagher Joseph C. Bilgin Ali Marcellin Michael W. , “Resource-Constrained Rate Control for Motion JPEG–2000,” IEEE Trans. on Image Proc , 12 ( 12 ): 1522 – 1529 , Dec. 2003 . EXTERNAL
  • 7. Nadenau M. J. Reichel J. Kunt M. , “Wavelet-Based Color Image Compression: Exploiting the Contrast Sensitivity Function,” IEEE Trans. on Image Proc , 12 ( 1 ): 58 – 70 , Jan. 2003 . EXTERNAL
  • 8. ISO/IEC 15444–1:2004/FDAM 1—Information Technology —JPEG2000 Image Coding System: Part 1—Core Coding System, Amendment 1: Profiles for Digital Cinema Applications. EXTERNAL
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Michael D. Smith and John Villasenor; JPEG-2000 Rate Control for Digital Cinema, SMPTE Motion Imaging Journal ( Volume: 115, Issue: 10, October 2006); SMPTE, 2006. Available at https://doi.org/10.5594/J15132
Snippet:
Michael D. Smith and John Villasenor; JPEG-2000 Rate Control for Digital Cinema, SMPTE Motion Imaging Journal ( Volume: 115, Issue: 10, October 2006); SMPTE, 2006. Available at https://doi.org/10.5594/J15132

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Michael D. Smith and John Villasenor; JPEG-2000 Rate Control for Digital Cinema, SMPTE Motion Imaging Journal ( Volume: 115, Issue: 10, October 2006); SMPTE, 2006. Available at https://doi.org/10.5594/J15132
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<span class="citation">Michael D. Smith and John Villasenor; <cite>JPEG-2000 Rate Control for Digital Cinema</cite>, SMPTE Motion Imaging Journal ( Volume: 115, Issue: 10, October 2006); SMPTE, 2006. Available at <a href="https://doi.org/10.5594/J15132" target="_blank" rel="noopener">https://doi.org/10.5594/J15132</a></span>

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Michael D. Smith and John Villasenor; JPEG-2000 Rate Control for Digital Cinema, SMPTE Motion Imaging Journal ( Volume: 115, Issue: 10, October 2006); SMPTE, 2006
doi: 10.5594/J15132
url: https://doi.org/10.5594/J15132
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Michael D. Smith and John Villasenor; <cite id="bib-10-5594-j15132">JPEG-2000 Rate Control for Digital Cinema</cite>, SMPTE Motion Imaging Journal ( Volume: 115, Issue: 10, October 2006); SMPTE, 2006
<span class="doi">10.5594/J15132</span>
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