Hop Constrained Energy-Efficient Broadcasting: Insights from Massively Dense Ad Hoc

[prashant]

Hop Constrained Energy-Efficient Broadcasting: Insights from Massively Dense Ad Hoc Networks
Bulbul, K. Ercetin, O. Unluyurt, T. Dept. of Manuf. Syst. & Ind. Eng., Sabanci Univ., Istanbul;
This paper appears in: Mobile Computing, IEE Transactions on Publication
Abstract

We consider source-initiated broadcast session traffic in an ad hoc wireless network operating under a hard constraint on the end-to-end delay between the source and any node in the network. We measure the delay to a given node in the number of hops data travels from the source to that node, and our objective in this paper is to construct an energy-efficient broadcast tree that has a maximum depth Delta, where Delta; represents the end-to-end hop constraint in the network. We characterize the optimal solution to a closely related problem in massively dense networks using a dynamic programming formulation. We prove that the optimal solution can be obtained by an algorithm of polynomial time complexity O(Delta2). The solution to the dynamic program indicates that there is a single optimal policy applicable to all massively dense networks. Elaborating on the insights provided by the structure of the problem in massively dense networks, we design an algorithm for finding a solution to the hop constrained minimum power broadcasting problem in general networks. By extensive simulations, we demonstrate that our proposed optimization-based algorithm generates broadcast trees within 20% of optimality for general dense networks.