Overview of JPEG2000: Advancements in Image Compression Techniques
This presentation by L.A. Rønningen at NTNU (2008) explores the JPEG2000 image compression standard, showcasing its advantages over traditional JPEG in terms of quality and flexibility. Key concepts include the lifting filter method, scaling of quality for regions of interest (ROI), and the relationship between spatial and bit-stream representations. Significant references include lectures by Professor M. Fowler and foundational texts by Z. Li and M. Drew as well as D. Taubman and M. Barcellin. Discover how JPEG2000 supports interactive imaging and meets modern multimedia needs.
Overview of JPEG2000: Advancements in Image Compression Techniques
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Presentation Transcript
JPEG2000 Overview By L A Rønningen, Item, NTNU 2008 Presentationbasedon: [4] Lecture notes on JPEG2000, by prof. M Fowler, Binghamton University, New York [3] Z. Li and M Drew, ”Fundamentals of Multimedia”, Pearson 2004 [2] A. Skodras, C Christopoulos, and T Ebrahimi, ”The JPEG2000 Still Image Compression Standard. IEEE Signal ProcessingMagazine, 2001 [1] D. Taubman and M. Barcellin, ”JPEG2000: Standard for InteractiveImaging. Procofthe IEEE, Vol 90, No 8, August 2002
Extend input sequence, Convolvewiththetwo filters, descardevery other Or use Lifting filter
’0’ ’1’ Samplevalues from SQ Eachsamplecanbe truncated, one or more bits
Packets and layers Image component Code stream Layer – packets from severalresolutionlevels Tile Packet- all codeblocksof a precinct Precinct Codeblocks CodedCode block Note: H stands for header Conceptualcorrespondencebetweenthe spatial and the bit streamrepresentations
Region ofinterest - ROI - Codeimportantobjectswithhigherquality than less importantobjects Scalingqualityof ROI by placingthesamples in higherbitplanes
To extract an arbitrarilyshapedobject, segmentation is needed. A rectangular bit mask, giving ’1’ for pixelsinside theobject and ’0’ for pixelsoutsidetheobject, can be applied
