Why are relays not always good for you? Performance of different relay deployment configurations in a heterogeneous network

In this paper, we study three scenarios of small-cell deployment in a heterogeneous network comprising a macro base station (MBS) and a set of small cells. The first scenario corresponds to wired backhauling and the remaining two scenarios correspond to two different ways of wireless backhauling. In one of the scenarios of wireless backhauling, the backhaul links have to compete with the user links for LTE channel resources (user-band relay scenario). In the other, an additional (mmWave) band is available exclusively for operating the backhaul links (dedicated-band relay scenario). For each of the scenarios, several different configurations based on channel allocation and node capabilities are considered. We formulate an optimization framework to model, dimension and evaluate all of these configurations. For user-band relay scenario, our results show that some configurations offer either negative or negligible throughput gains over the MBS-only case. By noting that any relay deployment's performance is upper-bounded by wired backhauling with sufficiently large capacity, the results also show that some other configurations offer very good throughput gains, with values very close to the upper-bound. The results highlight the importance of the right choice of configuration to justify the deployment of user-band relay nodes. Further, our results show that, for dedicated-band relay scenario, a small fraction of a typical mmWave bandwidth suffices to yield performance very close to the upper-bound.

[1]  Ashwin Sampath,et al.  Cell Association and Interference Coordination in Heterogeneous LTE-A Cellular Networks , 2010, IEEE Journal on Selected Areas in Communications.

[2]  Simone Redana,et al.  In-band and out-band relaying configurations for dual-carrier LTE-advanced system , 2011, 2011 IEEE 22nd International Symposium on Personal, Indoor and Mobile Radio Communications.

[3]  Catherine Rosenberg,et al.  On the need for coordination among base stations in a heterogeneous network , 2012, 2012 10th International Symposium on Modeling and Optimization in Mobile, Ad Hoc and Wireless Networks (WiOpt).

[4]  Frank Kelly,et al.  Charging and rate control for elastic traffic , 1997, Eur. Trans. Telecommun..

[5]  Rajasekhar Sappidi,et al.  Planning for small cells in a cellular network: Why it is worth it , 2014, 2014 IEEE Wireless Communications and Networking Conference (WCNC).

[6]  Catherine Rosenberg,et al.  Joint Resource Allocation and User Association for Heterogeneous Wireless Cellular Networks , 2013, IEEE Transactions on Wireless Communications.

[7]  Rainer Schoenen,et al.  Analysis of 3GPP LTE-Advanced cell spectral efficiency , 2010, 21st Annual IEEE International Symposium on Personal, Indoor and Mobile Radio Communications.

[8]  Catherine Rosenberg,et al.  Resource Allocation, Transmission Coordination and User Association in Heterogeneous Networks: A Flow-Based Unified Approach , 2013, IEEE Transactions on Wireless Communications.

[9]  Sridhar Rajagopal,et al.  Antenna Array Design for Multi-Gbps mmWave Mobile Broadband Communication , 2011, 2011 IEEE Global Telecommunications Conference - GLOBECOM 2011.

[10]  Yongbin Wei,et al.  A survey on 3GPP heterogeneous networks , 2011, IEEE Wireless Communications.

[11]  Thiago Martins de Moraes,et al.  Resource allocation in relay enhanced LTE-Advanced networks , 2012, EURASIP J. Wirel. Commun. Netw..