Litcius/Paper detail

Massive MIMO Two-Way Relaying Systems With SWIPT in IoT Networks

Jinlong Wang, Gang Wang, Bo Li, Hongjuan Yang, Yulin Hu, Anke Schmeink

2020IEEE Internet of Things Journal35 citationsDOI

Abstract

In sixth-generation (6G) communication networks, ultrahigh-data rate and reliability are greatly vital for massive user connections and network sensors, such as Internet of Things (IoT) devices. Simultaneous wireless information and power transfer (SWIPT) has been evolved as an efficient strategy to enhance the reliability of wireless communication systems through prolonging the battery lifetime by harvesting energy from the received radio-frequency (RF) signals. Furthermore, cooperative relay sensors in IoT networks can extend the network coverage. In this article, we consider a massive multiple-input–multiple-output (MIMO) two-way relaying system, where the relay node splits the received RF signals into two power streams, one for information decoding (ID) and the other for energy harvesting (EH). Two classical and linear relay precodings, i.e., zero-forcing reception/zero-forcing transmission (ZFR/ZFT) and maximum-ratio combining/maximum-ratio transmission (MRC/MRT), are adopted to satisfy the requirements of high rate in this relay system. Different from prior work, the SWIPT technique and large-scale fading effects of MIMO channels are taken into account for deriving the asymptotic sum-rates of four prevalent power scaling cases when the number of relay antennas grows to infinity. Finally, the analytical results are evaluated by the presented simulation and numerical results.

Topics & Concepts

RelayComputer scienceMIMOEnergy harvestingMaximum power transfer theoremFadingNode (physics)WirelessTransmission (telecommunications)Computer networkElectronic engineeringPower (physics)TelecommunicationsEnergy (signal processing)Channel (broadcasting)EngineeringMathematicsQuantum mechanicsStatisticsStructural engineeringPhysicsEnergy Harvesting in Wireless NetworksAdvanced MIMO Systems OptimizationFull-Duplex Wireless Communications