Joint power allocation and relay selection in cooperative ad-hoc networks with multi-hop diversity

We are concerned with the transmit power optimization in a multi-hop wireless relay network with multi-hop diversity. With the multi-hop diversity in such a network, we propose a joint near optimal power allocation and routing protocol, namely, power-optimized multi-hop cooperative transmission protocol (POMC) to minimize the total power consumption which guarantees the certain outage probability in the system. POMC is based on the linear combination of copies of the same massage by two previous hops along the route in order to exploit the multi-hop diversity advantages. The relay selection and power assignment strategy for conventional linear combining schemes, i.e., maximal ratio combining, equal gain combining, and selection combining at the receiver are analytically derived. Simulation results reveal that exploiting the multi-hop diversity, enhances the performance of the multi-hop wireless networks. We show that the POMC, depending on the type of the linear combining scheme, can achieve the power efficiency between the 64.8% and 73.7% in both the random and the linear network models compared to the existing ad hoc routing algorithms, where the cooperative routes are constructed based on the selection of the relay with highest received SNR at each hop.

[1]  Martin Haenggi On routing in random Rayleigh fading networks , 2005, IEEE Transactions on Wireless Communications.

[2]  Özgür Erçetin,et al.  Reliable Multi-hop Routing with Cooperative Transmissions in Energy-Constrained Networks , 2008, IEEE Transactions on Wireless Communications.

[3]  I. M. Pyshik,et al.  Table of integrals, series, and products , 1965 .

[4]  Stephen P. Boyd,et al.  Convex Optimization , 2004, Algorithms and Theory of Computation Handbook.

[5]  Il-Min Kim,et al.  Outage probability of multi-hop amplify-and-forward relay systems , 2010, IEEE Transactions on Wireless Communications.

[6]  Lin Dai,et al.  Routing Strategies in Multihop Cooperative Networks , 2007, 2007 IEEE Wireless Communications and Networking Conference.

[7]  Panganamala Ramana Kumar,et al.  RHEINISCH-WESTFÄLISCHE TECHNISCHE HOCHSCHULE AACHEN , 2001 .

[8]  Eytan Modiano,et al.  Cooperative Routing in Static Wireless Networks , 2007, IEEE Transactions on Communications.

[9]  Kin K. Leung,et al.  Distributed Cooperative Routing for UWB Ad-Hoc Networks , 2007, 2007 IEEE International Conference on Communications.

[10]  Mazen O. Hasna,et al.  Outage probability of multihop transmission over Nakagami fading channels , 2003, IEEE Communications Letters.

[11]  Andreas F. Molisch,et al.  Energy-Efficient Cooperative Relaying over Fading Channels with Simple Relay Selection , 2008, IEEE Transactions on Wireless Communications.

[12]  Norman C. Beaulieu,et al.  Capacity of amplify-and-forward multi-hop relaying systems under adaptive transmission , 2010, IEEE Transactions on Communications.

[13]  Halim Yanikomeroglu,et al.  Multihop diversity in wireless relaying channels , 2004, IEEE Transactions on Communications.

[14]  Theodore S. Rappaport,et al.  Wireless Communications: Principles and Practice (2nd Edition) by , 2012 .

[15]  Umberto Spagnolini,et al.  Energy Aware Power Allocation strategies for Multihop-Cooperative transmission schemes , 2006, 2006 40th Annual Conference on Information Sciences and Systems.

[16]  K. J. Ray Liu,et al.  Cooperative communications with relay-selection: when to cooperate and whom to cooperate with? , 2008, IEEE Transactions on Wireless Communications.

[17]  Gregory W. Wornell,et al.  Cooperative diversity in wireless networks: Efficient protocols and outage behavior , 2004, IEEE Transactions on Information Theory.

[18]  Laurence B. Milstein,et al.  Statistical channel knowledge-based optimum power allocation for relaying protocols in the high SNR regime , 2007, IEEE Journal on Selected Areas in Communications.