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Massive MIMO Systems with Hardware-Constrained Base Stations Emil Björnson ‡*, Michail Matthaiou ‡§, and Mérouane Debbah ‡ ‡ Alcatel-Lucent Chair on Flexible.

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Presentation on theme: "Massive MIMO Systems with Hardware-Constrained Base Stations Emil Björnson ‡*, Michail Matthaiou ‡§, and Mérouane Debbah ‡ ‡ Alcatel-Lucent Chair on Flexible."— Presentation transcript:

1 Massive MIMO Systems with Hardware-Constrained Base Stations Emil Björnson ‡*, Michail Matthaiou ‡§, and Mérouane Debbah ‡ ‡ Alcatel-Lucent Chair on Flexible Radio, Supélec, France * Dept. Signal Processing, KTH, and Linköping University, Sweden § ECIT, Queen’s University Belfast, U.K., and S2, Chalmers, Sweden 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)1

2 A Conjecture for Massive MIMO ”Massive MIMO can be built with inexpensive, low-power components.” “Massive MIMO reduces the constraints on accuracy and linearity of each individual amplifier and RF chain.” [5] “Massive MIMO for next generation wireless systems,” by E. G. Larsson, O. Edfors, F. Tufvesson and T. L. Marzetta, in IEEE Communications Magazine, 2014. 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)2 Is this true? There are some indicative results in the literature [9]-[11] In this paper we provide a more comprehensive answer! Is this true? There are some indicative results in the literature [9]-[11] In this paper we provide a more comprehensive answer!

3 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)3 Introduction

4 Introduction: Massive MIMO 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)4

5 What is New with Massive MIMO? 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)5 3 sectors, 4 vertical arrays/sector, 20 antennas/array Image source: gigaom.com On Each Uplink Receiver Chain Different Filters Low-Noise Amplifier (LNA) Mixer, Local Oscillator (LO) Analog-to-Digital Converter (ADC) On Each Uplink Receiver Chain Different Filters Low-Noise Amplifier (LNA) Mixer, Local Oscillator (LO) Analog-to-Digital Converter (ADC)

6 Hardware-Constrained Base Stations 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)6 Partial answer given in this paper Noise amplification Quantization noise Phase noise Modeling of Imperfections Essential to understand the impact of low- quality components! Modeling of Imperfections Essential to understand the impact of low- quality components!

7 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)7 System Model

8 Basic Assumptions 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)8

9 Conventional and New Uplink Model 2014-05-07 Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)9 Phase Drift Rotates phases by Wiener process: Phase Drift Rotates phases by Wiener process: Distortion Noise Proportional to received signal: Distortion Noise Proportional to received signal: Receiver Noise

10 Characterization: Hardware Imperfections 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)10

11 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)11 Overview of Analytic Contributions

12 Channel Estimator and Predictor 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)12 Need new estimator/ predictor

13 Achievable User Rates 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)13 Receiver Noise Signal Power Distortion NoiseInter-User Interference Theorem 2 Closed form expressions for all expectations for (maximum ratio combining (MRC)) Theorem 2 Closed form expressions for all expectations for (maximum ratio combining (MRC))

14 Asymptotic Limit and Scaling Law 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)14 Corollary 1 (Rates with MRC) Inner product of pilot sequences

15 Interpretation of Scaling Law 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)15 Additive distortions Multiplicative distortions Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)15

16 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)16 Numerical Example

17 Simulation Scenario 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)17

18 Area Sum Rates Three Cases -Ideal Hardware -Fixed imperfect hardware: -Variable Imperfect hardware: As in Corollary 2 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)18 Observations Manageable impact if scaling law is fulfilled Otherwise: Drastic reduction Observations Manageable impact if scaling law is fulfilled Otherwise: Drastic reduction MMSE Receiver Higher performance Suffers more from imperfections MMSE Receiver Higher performance Suffers more from imperfections

19 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)19 Conclusions

20 2014-05-07Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH)20 Important Conclusions for Massive MIMO Conjecture from [5] is true! Can be deployed with inexpensive and imperfect hardware! Hardware cost increases slower than linear! Important Conclusions for Massive MIMO Conjecture from [5] is true! Can be deployed with inexpensive and imperfect hardware! Hardware cost increases slower than linear!

21 2014-05-0721Massive MIMO Systems with Hardware-Constrained Base Stations, E. Björnson (Supélec, KTH) Thank You for Listening! Questions? Also check out: E. Björnson, M. Matthaiou, M. Debbah, “Circuit-Aware Design of Energy-Efficient Massive MIMO Systems,” Proceedings of ISCCSP, Athens, Greece, May 2014.

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