Wireless Video Transmission Optimization Based on Error Resilience and Unequal Packet Loss

On account of the wireless channel interference, transmission data tends to be erroneously decoded at the receiver. Even received with errors in some extent, the video can still be successfully recovered because of its error resilience, e.g. videos encoded with H.264/AVC. According to recent research, when a bit sequence is modulated to constellation symbols, different bit positions of symbols may have different probabilities of error occurrence. To exploit whether differential protection could be provided to different data bits of a video streaming based on this feature, our experiment implements this UEP (unequal error protection) scheme together with the data partitioning mechanism in H.264/AVC video encoding standards. The experiment results show the UEP scheme gains 5 dB of PSNR improvement in average than the EEP (equal error protection) scheme. While once massive errors occur, packets must be discarded and retransmissions are required, so additional resource consumption is unavoidable. To solve this problem, unequal loss protection (ULP) for H.264 bit stream is proposed in this paper. And we find a fact through experiments that when bandwidth resource is limited, insignificant partial data of H.264 bit stream could be discarded selectively without arousing obvious video quality degradation. Our simulation shows that when the unimportant network abstraction layer units (NALU) of H.264 bit stream are discarded, approximately 20 % of bandwidth resource is saved.