Title :
Memory reduction by Haar wavelet transform for MPEG decoder
Author :
Shih, ChendNei Jeff ; Ling, Nam ; Ogunfunmi, Tokunbo
Author_Institution :
Dept. of Electr. Eng., Santa Clara Univ., CA, USA
fDate :
8/1/1999 12:00:00 AM
Abstract :
In MPEG-2 HDTV (MP@HL) application, bandwidth and size of memory requirements are very large. These requirements increase the bus bandwidth and hardware cost. We present a simple method that requires low complexity hardware for MPEG-2 decoder memory reduction. Our algorithm is based on the Haar wavelet transformation and Haar basis with full-tree decomposition transformation. No additional multipliers are needed. Following the transformation, we use a variable-length coder to compress the data before storing them in the memory for future references. For memory accesses, we apply a group of macroblock segment coding and a hierarchical access method to reduce the access time. According to our simulation results, this technique can at least cut down the memory requirement from 12 Mbytes to 7 Mbytes for 4:2:0 HDTV real-time application. The real performance is dependent on the bit rate and the original MPEG2 decoded video quality
Keywords :
DRAM chips; Haar transforms; code standards; data compression; decoding; high definition television; telecommunication standards; transform coding; variable length codes; video coding; wavelet transforms; 7 Mbyte; DRAM; HDTV real-time application; Haar basis; Haar wavelet transform; MP@HL; MPEG decoder; MPEG-2 HDTV; access time reduction; algorithm; bandwidth; bit rate; bus bandwidth; data compression; decoded video quality; full-tree decomposition transformation; hardware cost; hierarchical access method; low complexity hardware; macroblock segment coding; memory accesses; memory reduction; memory size; performance; simulation results; variable-length coder; Bandwidth; Costs; Decoding; Discrete wavelet transforms; Displays; Encoding; HDTV; Hardware; USA Councils; Wavelet transforms;
Journal_Title :
Consumer Electronics, IEEE Transactions on
