On Randomized Network Coding

We consider a randomized network coding approach for multicasting from several sources over a network, in which nodes independently and randomly select linear mappings from inputs onto output links over some field. This approach was first described in [3], which gave, for acyclic delay-free networks, a bound on error probability, in terms of the number of receivers and random coding output links, that decreases exponentially with code length. The proof was based on a result in [2] relating algebraic network coding to network flows. In this paper, we generalize these results to networks with cycles and delay. We also show, for any given acyclic network, a tighter bound in terms of the probability of connection feasibility in a related network problem with unreliable links. From this we obtain a success probability bound for randomized network coding in link-redundant networks with unreliable links, in terms of link failure probability and amount of redundancy.

[1]  Peter Sanders,et al.  Polynomial time algorithms for network information flow , 2003, SPAA '03.

[2]  Rudolf Ahlswede,et al.  Network information flow , 2000, IEEE Trans. Inf. Theory.

[3]  R. Koetter,et al.  The benefits of coding over routing in a randomized setting , 2003, IEEE International Symposium on Information Theory, 2003. Proceedings..

[4]  Muriel Médard,et al.  An algebraic approach to network coding , 2003, TNET.

[5]  R. Koetter,et al.  Network coding from a network flow perspective , 2003, IEEE International Symposium on Information Theory, 2003. Proceedings..

[6]  P. Chou,et al.  Low complexity algebraic multicast network codes , 2003, IEEE International Symposium on Information Theory, 2003. Proceedings..