Distributed Space-Time Block Coding for Cooperative Networks with Multiple-Antenna Nodes

Abstract

We present an extension to our previous work on distributed space-time block coding where we considered cooperative networks with a large set of single-antenna decode-and-forward relays N. Here, we consider the general case where each relay node is equipped with N/sub T/ antennas and the destination node has N/sub R/ antennas. It is assumed that at any given time only a small, a priori unknown subset of nodes S C N is active. In the proposed scheme, the signal transmitted by an active node is the product of an information-carrying space-time block code (STBC) matrix, which is identical for all nodes, and a unique node signature matrix. It is shown that existing STBCs designed for N/sub c/ /spl ges/ 2 co-located antennas are a favorable choice for the code matrix guaranteeing a diversity order of d = min {N/sub c/N/sub R/, N/sub T/N/sub S/N/sub R/} if ns nodes are active. Simulation results show that a considerable gain can be achieved by using multiple-antenna nodes even if the antennas are highly correlated.