Title :
Parity-based loss recovery for reliable multicast transmission
Author :
Nonnenmacher, Jorg ; Biersack, Ernst W. ; Towsley, Don
Author_Institution :
Inst. Eurecom, Sophia-Antipolis, France
fDate :
8/1/1998 12:00:00 AM
Abstract :
We investigate how forward error correction (FEC) can be combined with automatic repeat request (ARQ) to achieve scalable reliable multicast transmission. We consider the two scenarios where FEC is introduced as a transparent layer underneath a reliable multicast layer that uses ARQ, and where FEC and ARQ are both integrated into a single layer that uses the retransmission of parity data to recover from the loss of original data packets. To evaluate the performance improvements due to FEC, we consider different loss rates and different types of loss behavior (spatially or temporally correlated loss, homogeneous or heterogeneous loss) for up to 106 receivers. Our results show that introducing FEC as a transparent layer below ARQ can improve multicast transmission efficiency and scalability. However, there are substantial additional improvements when FEC and ARQ are integrated
Keywords :
automatic repeat request; correlation methods; data communication; forward error correction; packet switching; protocols; telecommunication network reliability; ARQ; FEC; automatic repeat request; data packets recovery; forward error correction; heterogeneous loss; homogeneous loss; loss rates; multicast protocol; multicast transmission efficiency; parity data retransmission; parity-based loss recovery; performance; scalable reliable multicast transmission; spatially correlated loss; temporally correlated loss; transparent layer; Automatic repeat request; Bandwidth; Data communication; Error correction codes; Forward error correction; Internet; Multicast protocols; Performance loss; Propagation losses; Scalability;
Journal_Title :
Networking, IEEE/ACM Transactions on
