Optimal LR-PET protection for scalable video streams over lossy channels with random delay

Abstract

This paper investigates the optimal PET protection for streaming scalably compressed streams over networks where the delivery time constraints allow limited retransmissions (LR) and the communication channels exhibit both random losses and delays. A key property must be considered in this scenario is the possibility that a packet successfully arrives at the receiver in time, even if its acknowledgment is not received by the sender at certain deadlines. This paper proposes an extended LRPET scheme, namely random-delay LR-PET, in which additional streams may be sent to provide supplemental protection for the packets whose acknowledgments are still missing at a specified time after the transmission. To determine the optimal protection in each transmission opportunity, hypotheses concerning the number of acknowledged packets and the effect of future retransmission are considered. As the key contribution of this paper, we develop a method to derive the effective overall recovery probability versus redundancy characteristic, which significantly simplifies the actual protection assignment procedure. This paper also demonstrates the benefits of the optimization strategy proposed for this random-delay LR-PET scheme and the cruciality of time selection for scheduling retransmission.