Partial Decode-Forward Relaying for the Gaussian Two-Hop Relay Network

Abstract

The multicast capacity of the Gaussian two-hop relay network with one source, N relays, and L destinations is studied. It is shown that a careful modification of the partial decode--forward coding scheme, whereby the relays cooperate through degraded sets of message parts, achieves the cutset upper bound within (1/2) N bits regardless of the channel gains and power constraints. This scheme improves upon a previous scheme by Chern and Ozgur, which is also based on partial decode--forward yet has an unbounded gap from the cutset bound for L 2 destinations. When specialized to independent codes among relays, the proposed scheme achieves within N bits from the cutset bound. The computation of this relaxation involves evaluating mutual information across L(N+1) cuts out of the total L 2N possible cuts, providing a very simple linear-complexity algorithm to approximate the single-source multicast capacity of the Gaussian two-hop relay network.