Pilot pattern adaptation for 5G MU-MIMO wireless communications

To meet the goal of ten-fold increase in spectral efficiency, multiuser multiple-input-multiple-output (MU-MIMO) techniques capable of achieving high spatial multiplexing gains are expected to be an essential component of fifth-generation (5G) radio access systems. This increase in multiplexing gain, made possible by equipping base stations with a large number of antennas, entails a proportional increase in channel state information (CSI) acquisition overhead. This article addresses the problem of reducing this CSI overhead by optimizing the amount of time-frequency resources allocated for channel training purposes while not affecting the quality of the associated channel estimate. First we show that in MU-MIMO, adapting pilot symbol density in the time-frequency grid should be performed both on a per resource block (RB) basis and on the basis of groups of users sharing similar channel conditions. Next, we propose a practical scheme that can perform grouping based per-RB pilot pattern adaptation. Finally, we evaluate using both analytical and numerical results the gain in spectral efficiency that can be achieved using this scheme as compared to conventional MU-MIMO systems that use fixed pilot patterns.

[1]  Maxime Guillaud,et al.  Pilot length optimization for spatially correlated multi-user MIMO channel estimation , 2015, 2015 49th Asilomar Conference on Signals, Systems and Computers.

[2]  Patrick Robertson,et al.  Two-dimensional pilot-symbol-aided channel estimation by Wiener filtering , 1997, 1997 IEEE International Conference on Acoustics, Speech, and Signal Processing.

[3]  Emil Björnson,et al.  Massive MIMO: ten myths and one critical question , 2015, IEEE Communications Magazine.

[4]  Markus Rupp,et al.  Design requirements of adaptive pilot-symbol patterns , 2013, 2013 IEEE International Conference on Communications Workshops (ICC).

[5]  Giuseppe Caire,et al.  Joint Spatial Division and Multiplexing—The Large-Scale Array Regime , 2013, IEEE Transactions on Information Theory.

[6]  J.Y. Lee,et al.  Group-based Pilot Design Method in Mobile OFDMA Systems , 2008, 2008 10th International Conference on Advanced Communication Technology.

[7]  Bruno Clerckx,et al.  Recent trend of multiuser MIMO in LTE-advanced , 2013, IEEE Communications Magazine.

[8]  Jiann-Ching Guey,et al.  Adaptive Pilot Allocation in Downlink OFDM , 2008, 2008 IEEE Wireless Communications and Networking Conference.

[9]  Umberto Spagnolini,et al.  Adaptive pilot pattern for OFDM systems , 2004, 2004 IEEE International Conference on Communications (IEEE Cat. No.04CH37577).

[10]  Mérouane Debbah,et al.  Massive MIMO in the UL/DL of Cellular Networks: How Many Antennas Do We Need? , 2013, IEEE Journal on Selected Areas in Communications.