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More About This Title The JPEG 2000 Suite
English
- Describes secure JPEG 2000 (JPSEC), interactivity protocols (JPIP), volumetric image data compression (JP3D) and image compression in wireless environments (JPWL), amongst others.
- Uses a structure which allows for easy cross-reference with the components of the standard.
- Sets out practical implementation examples and results.
- Examines strategies for future image compression techniques, including Advanced Image Coding and JPEG XR.
- Includes contributions from international specialists in industry and academia who have worked on the development of the JPEG 2000 standard.
- Additional material can be found at www.jpeg.org.
The JPEG 2000 Suite is an excellent introduction to the JPEG 2000 standard and is of great appeal to practising electronics engineers, researchers, and hardware and software developers using and developing image coding techniques. Graduate students taking courses on image compression, digital archiving, and data storage techniques will also find the book useful, as will graphic designers, artists, and decision makers in industries developing digital applications.
English
Peter Schelkens, Vrije Universiteit Brussel, Belgium
Peter Schelkens is currently a Professor in the Department and Electronics and Informatics at the Vrije Universiteit Brussel. He also holds a post-doctoral fellowship with the Fund for Scientific Research (FWO), Belgium, is director of the VUB section of the Interdisciplinary Institute for Broadband Technology (IBBT), and is a scientific advisor to the DESICS division of the Inter-university Microelectronics Institute (IMEC). Alongside these posts, he coordinates a research team in the field of image/video compression and multimedia communication that is working on ISO/IEC JTC1/SC29/WG1 (JPEG2000), WG11 (MPEG) and DVB standardization activities, and he is the Belgian head of delegation for the ISO/IEC JPEG standardization committee. Professor Schelkens is author/co-author of several scientific publications and patents, and has participated in several national and international projects. He is Editor of the International Journal of Signal and Image Systems Engineering (IJSISE) and is active in several Belgian research networks.
Athanassios Skodras, Hellenic Open University, Greece
Athanassios Skodras is Head of Computer Science in the School of Science & Technology at the Hellenic Open University. He also teaches source coding at postgraduate level at the University of Patras. He is the national representative for the standardization body and has been working on the JPEG2000 standard since 1998. He has co-authored a number of well-cited journal and conference papers on JPEG, namely "The JPEG2000 Still Image Coding System: An Overview" for the IEEE Trans. on Consumer Electronics and "The JPEG2000 Still Image Compression Standard" in the IEEE Signal Processing Magazine. Professor Skodras has authors/co-authored six books in Greek, and is Associate Editor of the IEEE Transactions on Circuits and Systems-II: Analog and Digital Signal Processing.
Touradj Ebrahimi, EPFL, Switzerland
Touradj Ebrahimi is currently a Professor at the ??cole Technique F??d??rale de Lausanne (EPFL), Switzerland, where he is active in research and teaching in the fields of media technologies and interactivity. In addition to this, he is a member of the advisory board for a number of international laboratories, an expert at the European Commission for Research Programs in IT, Head of the Swiss Delegation of various standard committees, including MPEG and JPEG, and Associate Editor for the publications IEEE Trans. on Image Processing, Optical Engineering Magazine (SPIE) and Image Communication Journal (EURASIP). In addition to this, he has authored over 100 chapters and articles in books, scientific journals and conference proceedings, holds 10 patents, and has been awarded the ISO Certificate for outstanding contributions to JPEG2000 standardization.
English
Foreword.
Series Editor’s Preface.
Preface.
Acknowledgments.
List of Acronyms.
Part A.
1 JPEG 2000 Core Coding System (Part 1) (Majid Rabbani, Rajan L. Joshi, and Paul W. Jones).
1.1 Introduction.
1.2 JPEG 2000 Fundamental Building Blocks.
1.3 JPEG 2000 Bit-Stream Organization.
1.4 JPEG 2000 Rate Control.
1.5 Performance Comparison of the JPEG 2000 Encoder Options.
1.6 Additional Features of JPEG 2000 Part 1.
Acknowledgments.
References.
2 JPEG 2000 Extensions (Part 2) (Margaret Lepley, J. Scott Houchin, James Kasner, and Michael Marcellin).
2.1 Introduction.
2.2 Variable DC Offset.
2.3 Variable Scalar Quantization.
2.4 Trellis-Coded Quantization.
2.5 Precinct-Dependent Quantization.
2.6 Extended Visual Masking.
2.7 Arbitrary Decomposition.
2.8 Arbitrary Wavelet Transforms.
2.9 Multiple-Component Transform Extensions.
2.10 Nonlinear Point Transform.
2.11 Geometric Manipulation via a Code-Block Anchor Point (CBAP).
2.12 Single-Sample Overlap.
2.13 Region of Interest.
2.14 Extended File Format: JPX.
2.15 Extended Capabilities Signaling.
Acknowledgments.
References.
3 Motion JPEG 2000 and ISO Base Media File Format (Parts 3 and 12) (Joerg Mohr).
3.1 Introduction.
3.2 Motion JPEG 2000 and ISO Base Media File Format.
3.3 ISO Base Media File Format.
3.4 Motion JPEG 2000.
References.
4 Compound Image File Format (Part 6) (Frederik Temmermans, Tim Bruylants, Simon McPartlin, and Louis Sharpe).
4.1 Introduction.
4.2 The JPM File Format.
4.3 Mixed Raster Content Model (MRC).
4.4 Streaming JPM Files.
4.5 Referencing JPM Files.
4.6 Metadata.
4.7 Boxes.
4.8 Profiles.
4.9 Conclusions.
References.
5 JPSEC: Securing JPEG 2000 Files (Part 8) (Susie Wee and Zhishou Zhang).
5.1 Introduction.
5.2 JPSEC Security Services.
5.3 JPSEC Architecture.
5.4 JPSEC Framework.
5.5 What: JPSEC Security Services.
5.6 Where: Zone of Influence (ZOI).
5.7 How: Processing Domain and Granularity.
5.8 JPSEC Examples.
5.9 Summary.
References.
6 JPIP – Interactivity Tools, APIs, and Protocols (Part 9) (Robert Prandolini).
6.1 Introduction.
6.2 Data-Bins.
6.3 JPIP Basics.
6.4 Client Request–Server Response.
6.5 Advanced Topics.
6.6 Conclusions.
Acknowledgments.
References.
7 JP3D – Extensions for Three-Dimensional Data (Part 10) (Tim Bruylants, Peter Schelkens, and Alexis Tzannes).
7.1 Introduction.
7.2 JP3D: Going Volumetric.
7.3 Bit-Stream Organization.
7.4 Additional Features of JP3D.
7.5 Compression performances: JPEG 2000 Part 1 versus JP3D.
7.6 Implications for Other Parts of JPEG 2000.
Acknowledgments.
References.
8 JPWL – JPEG 2000 Wireless (Part 11) (Frédéric Dufaux).
8.1 Introduction.
8.2 Background.
8.3 JPWL Overview.
8.4 Normative Parts.
8.5 Informative Parts.
8.6 Summary.
Acknowledgments.
References.
Part B.
9 JPEG 2000 for Digital Cinema (Siegfried Fößel).
9.1 Introduction.
9.2 General Requirements for Digital Cinema.
9.3 Distribution of Digital Cinema Content.
9.4 Archiving of Digital Movies.
9.5 Future Use of JPEG 2000 within Digital Cinema.
9.6 Conclusions.
Acknowledgments.
References.
10 Security Applications for JPEG 2000 Imagery (John Apostolopoulos, Frédéric Dufaux, and Qibin Sun).
10.1 Introduction.
10.2 Secure Transcoding and Secure Streaming.
10.3 Multilevel Access Control.
10.4 Selective or Partial Encryption of Image Content.
10.5 Image Authentication.
10.6 Summary.
Acknowledgments.
References.
11 Video Surveillance and Defense Imaging (Touradj Ebrahimi and Frédéric Dufaux).
11.1 Introduction.
11.2 Scrambling.
11.3 Overview of a Typical Video Surveillance System.
11.4 Overview of a Video Surveillance System Based on JPEG 2000 and ROI Scrambling.
12 JPEG 2000 Application in GIS and Remote Sensing (Bernard Brower, Robert Fiete, and Roddy Shuler).
12.1 Introduction.
12.2 Geographic Information Systems.
12.3 Recommendations for JPEG 2000 Encoding.
12.4 Other JPEG 2000 Parts to Consider.
References.
13 Medical Imaging (Alexis Tzannes and Ron Gut).
13.1 Introduction.
13.2 Background.
13.3 DICOM and JPEG 2000 Part 1.
13.4 DICOM and JPEG 2000 Part 2.
13.5 Example Results.
13.6 Image Streaming, DICOM, and JPIP.
References.
14 Digital Culture Imaging (Greg Colyer, Robert Buckley, and Athanassios Skodras).
14.1 Introduction.
14.2 The Digital Culture Context.
14.3 Digital Culture and JPEG 2000.
14.4 Application – National Digital Newspaper Program.
Acknowledgments.
References.
15 Broadcast Applications (Hans Hoffman, Adi Kouadio, and Luk Overmeire).
15.1 Introduction – From Tape-Based to File-Based Production.
15.2 Broadcast Production Chain Reference Model.
15.3 Codec Requirements for Broadcasting Applications.
15.4 Overview of State-of-the-Art HD Compression Schemes.
15.5 JPEG 2000 Applications.
15.6 Multigeneration Production Processes.
15.7 JPEG 2000 Comparison with SVC.
15.8 Conclusion.
References.
16 JPEG 2000 in 3-D Graphics Terrain Rendering (Gauthier Lafruit, Wolfgang Van Raemdonck, Klaas Tack, and Eric Delfosse).
16.1 Introduction.
16.2 Tiling: The Straightforward Solution to Texture Streaming.
16.3 View-Dependent JPEG 2000 Texture Streaming and Mipmapping.
16.4 JPEG 2000 Quality and Decoding Time Scalability for Optimal Quality–Workload Tradeoff.
16.5 Conclusion.
References.
17 Conformance Testing, Reference Software, and Implementations (Peter Schelkens, Yiannis Andreopoulos, and Joeri Barbarien).
17.1 Introduction.
17.2 Part 4 – Conformance Testing.
17.3 Part 5 – Reference Software.
17.4 Implementation of the Discrete Wavelet Transform as Suggested by the JPEG 2000 Standard.
17.5 JPEG 2000 Hardware and Software Implementations.
17.6 Conclusions.
Acknowledgments.
References.
18 Ongoing Standardization Efforts (Touradj Ebrahimi, Athanassios Skodras, and Peter Schelkens).
18.1 Introduction.
18.2 JPSearch.
18.3 JPEG XR.
18.4 Advanced Image Coding and Evaluation Methodologies (AIC).
References.
Index.
