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Please use this identifier to cite or link to this item: http://hdl.handle.net/123456789/12748

Title: VLSI architecture for HDTV sub-band coding using GQMFs' filterbanks
Authors: Al-Asmari, Awad Kh,
Ahmed, Rana Ejaz
Keywords: CMOS integrated circuits; Computational complexity; Digital filters; High definition television; Image coding; Image compression; Image quality; Pulse code modulation; Television transmission; Transistors; VLSI circuits
Issue Date: 1995
Publisher: IEEE, Piscataway, NJ, United States
Citation: IEEE Transactions on Consumer Electronics Volume 41, Issue 1, February 1995, Pages 1-11
Abstract: A VLSI architecture for a low complexity intraframe subband image coding for HDTV signals is presented. The Generalized Quadrature Mirror Filters (GQMFs), which have smaller overall delay, are optimized in order to achieve high coding efficiency. The filter design exploits a symmetry property among different filter coefficients which, in turn, reduces the hardware complexity of the VLSI architecture substantially. The architecture is designed with 1 μm CMOS technology using the scalable design rules of MOS Integrated Services Inc. (MOSIS). The VLSI architecture contains approximately 200,000 transistors and it is capable of operating at a speed of 34 MHz. The HDTV signals are decomposed into seven bands. The baseband is DPCM encoded and the high bands are PCM encoded. It is shown that high quality HDTV images can be obtained at as low bit rate as 0.654 bpp (bits/pixel).
URI: http://hdl.handle.net/123456789/12748
ISSN: 00983063
Appears in Collections:College of Engineering

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