Title :
Impact of Random and Burst Packet Losses on H.264 Scalable Video Coding
Author :
Siyu Tang ; Alface, Patrice Rondao
Author_Institution :
Bell Labs., ALCATEL-LUCENT, Antwerp, Belgium
Abstract :
This paper presents an encoder-based prediction model to study the impact of packet loss on H.264 scalable video coding (SVC). A Markov Chain (MC) with 2N states is developed to describe the error propagation process inside a group of pictures (GOP). Using the packet loss rate reported by RTCP (RTP Control Protocol) and analyzing the inter-frame prediction rules, we evaluate packet-loss-induced quality degradation in SVC as the probability that a given scalable layer can be correctly received. Based on the proposed model, the performance of the SVC hierarchical B-frame structure, the zero delay encoding/decoding structure, and the advance video coding (AVC) IPPP structure (compatible base layer in SVC) are evaluated and compared under both random and burst packet loss events.
Keywords :
Markov processes; probability; protocols; video coding; AVC IPPP structure; GOP; H.264 scalable video coding; Markov chain; RTCP; RTP control protocol; SVC hierarchical B-frame structure; advance video coding IPPP structure; burst packet loss; compatible base layer; encoder-based prediction model; error propagation process; group of pictures; inter-frame prediction rules; packet-loss-induced quality degradation; probability; random packet loss; zero delay encoding/decoding structure; Decoding; Encoding; Packet loss; Static VAr compensators; Streaming media; Video coding; Error propagation; Markov model; packet-loss-induced quality degradation; scalable video coding (SVC);
Journal_Title :
Multimedia, IEEE Transactions on
DOI :
10.1109/TMM.2014.2348947
