Title :
Throughput Performance of Generation-Based Network Coding
Author :
Thibault, Jean-Pierre ; Yousefi, Shahram ; Chan, Wai-Yip
Author_Institution :
Queen´´s Univ., Kingston
Abstract :
Using generations to implement random linear network coding garners benefits such as reduced decoding complexity. However, these benefits can come at the expense of throughput. In this paper, we seek to understand and maximize throughput for generation-based network coding (GBNC). Motivated by the application of network coding to scalable multicast, we consider schemes which result in high probability of decoding success with minimal feedback. We show that the throughput performance of GBNC is highly dependent on the choice of coding parameters and that GBNC becomes advantageous only when the number of source packet exceeds a network-dependent threshold. Results for various network topologies lead to the formulation of throughput-motivated guidelines for the adoption of GBNC.
Keywords :
communication complexity; decoding; directed graphs; multicast communication; probability; telecommunication network topology; GBNC throughput performance; decoding complexity; directed graph; generation-based network coding; minimal feedback; probability; random linear network coding; scalable multicast; Decoding; Delay; Feedback; Guidelines; Network coding; Network topology; Pipeline processing; Protection; Robustness; Throughput;
Conference_Titel :
Information Theory, 2007. CWIT '07. 10th Canadian Workshop on
Conference_Location :
Edmonton, Alta.
Print_ISBN :
1-4244-0769-9
Electronic_ISBN :
1-4244-0769-9
DOI :
10.1109/CWIT.2007.375708
