Title :
Double-Binary Turbo Code for Transmission of Scalable Video Bitstream
Author :
Ramzan, N. ; Izquierdo, E.
Author_Institution :
Queen Mary Univ. of London
Abstract :
A novel low bit rate video transmission scheme is proposed for the communication of scalable video bitstream over wireless channel. The schema consists of motion compensated t+2D wavelet decomposition scalable coder and double binary turbo code. Double binary codes were used for protection since they perform better than classical turbo coders in terms of better convergence for iterative decoding, a large minimum distance and computational cost. An efficient method to estimate the minimum distance of double binary turbo codes is also proposed. The best packet length are evaluated by measuring the minimum distance of turbo code to adopt the scalable bitstream with unequal error protection. Simulation results show that the unequal error protection is quite efficient, even in very adverse conditions, and it clearly outperforms simple FEC techniques
Keywords :
binary codes; iterative decoding; motion compensation; turbo codes; video coding; wavelet transforms; wireless channels; double binary turbo code; iterative decoding; motion compensation; scalable video bitstream transmission; unequal error protection; wavelet decomposition scalable coder; wireless channel; Binary codes; Bit rate; Computational efficiency; Computational modeling; Convergence; Error correction codes; Iterative decoding; Length measurement; Protection; Turbo codes; Double Binary Turbo Code; Joint Source and Channel Coding; Minimum Hamming Distance; Scalable Video Codec; Turbo Code;
Conference_Titel :
Multimedia Signal Processing and Communications, 48th International Symposium ELMAR-2006 focused on
Conference_Location :
Zadar
Print_ISBN :
953-7044-03-3
DOI :
10.1109/ELMAR.2006.329571
