On broadcasting with cooperative diversity in multi-hop wireless networks

Abstract

Cooperative diversity facilitates spatio-temporal communications without requiring the deployment of physical antenna arrays.While physical layer studies on cooperative diversity have been extensive, higher layer protocols which translate the achievable reduction in the SNR per bit for a given target BER, into system wide performance enhancements are yet to mature.The challenge is that appropriate higher layer functions are needed in order to enable cooperative diversity at the physical layer.We focus on network-wide broadcasting with the use of cooperative diversity in ad hoc networks.We design a novel distributed network-wide broadcasting protocol that takes into account the physical layer dependencies that arise with cooperative diversity.We perform extensive simulations that show that our protocol can outperform the best of the noncooperative broadcasting protocols by: (a) achieving up to a threefold increase in network coverage and, (b) by decreasing the latency incurred during the broadcast by about 50%.We also construct an analytical model that captures the behavior of our protocol.Furthermore, we show that computing the optimal solution to the cooperative broadcast problem is NP-complete and construct centralized approximation algorithms.Specifically, we construct an O(N )-approximation algorithm with a computational complexity of O(N 4 ); we also construct a simpler greedy algorithm.The costs incurred with these algorithms serve as benchmarks with which one can compare that achieved by any distributed protocol.