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Power Scaling Laws and Near-Field Behaviors of Massive MIMO and Intelligent Reflecting Surfaces

Emil Björnson, Luca Sanguinetti

2020IEEE Open Journal of the Communications Society418 citationsDOIOpen Access PDF

Abstract

The use of large arrays might be the solution to the capacity problems in wireless communications. The signal-to-noise ratio (SNR) grows linearly with the number of array elements N when using Massive MIMO receivers and half-duplex relays. Moreover, intelligent reflecting surfaces (IRSs) have recently attracted attention since these can relay signals to achieve an SNR that grows as N <sup xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">2</sup> , which seems like a major benefit. In this article, we use a deterministic propagation model for a planar array of arbitrary size, to demonstrate that the mentioned SNR behaviors, and associated power scaling laws, only apply in the far-field. They cannot be used to study the regime where N → ∞. We derive an exact channel gain expression that captures three essential near-field behaviors and use it to revisit the power scaling laws. We derive new finite asymptotic SNR limits but also conclude that these are unlikely to be approached in practice. We further prove that an IRS-aided setup cannot achieve a higher SNR than an equal-sized Massive MIMO setup, despite its faster SNR growth. We quantify analytically how much larger the IRS must be to achieve the same SNR. Finally, we show that an optimized IRS does not behave as an “anomalous” mirror but can vastly outperform that benchmark.

Topics & Concepts

ScalingMIMOScaling lawPower (physics)Field (mathematics)Computer scienceLawControl theory (sociology)PhysicsMathematicsPolitical scienceGeometryTelecommunicationsArtificial intelligencePure mathematicsQuantum mechanicsControl (management)Channel (broadcasting)Advanced Wireless Communication TechnologiesAdvanced Antenna and Metasurface TechnologiesEnergy Harvesting in Wireless Networks
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