RIS-Empowered Non-Linear Energy Harvesting Communications Over Nakagami-m Channels

Hakan Alakoca; Mohammadreza Babaei; Lutfiye Durak-Ata; Ertugrul Basar

doi:10.1109/LCOMM.2022.3182482

RIS-Empowered Non-Linear Energy Harvesting Communications Over Nakagami-m Channels

Hakan Alakoca^*, Mohammadreza Babaei, Lutfiye Durak-Ata, Ertugrul Basar

^*Corresponding author for this work

Informatics Institute

Research output: Contribution to journal › Article › peer-review

11 Citations (Scopus)

Abstract

We propose novel reconfigurable-intelligent-surface (RIS)-based energy harvesting (EH) systems with linear EH (L-EH) and non-linear EH (NL-EH) models where channels are exposed to Nakagami- m fading. We also compare two RIS-based EH systems in terms of RIS locations, namely RIS-EH and RIS-information processing (RIS-IP). In the RIS-EH, RIS increases the amount of harvested energy, while in the RIS-IP, RIS is utilized to improve the information processing link. Closed-formed expressions of throughput, outage probability, and average harvested power are derived and confirmed via simulation. The L-EH model overestimates system performance, while the NL-EH model provides a realistic interpretation of EH system design.

Original language	English
Pages (from-to)	2215-2219
Number of pages	5
Journal	IEEE Communications Letters
Volume	26
Issue number	9
DOIs	https://doi.org/10.1109/LCOMM.2022.3182482
Publication status	Published - 1 Sept 2022

Bibliographical note

Publisher Copyright:
© 1997-2012 IEEE.

Keywords

Average harvested power
energy harvesting
outage probability
reconfigurable intelligent surfaces

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10.1109/LCOMM.2022.3182482

Cite this

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title = "RIS-Empowered Non-Linear Energy Harvesting Communications Over Nakagami-m Channels",

abstract = "We propose novel reconfigurable-intelligent-surface (RIS)-based energy harvesting (EH) systems with linear EH (L-EH) and non-linear EH (NL-EH) models where channels are exposed to Nakagami- m fading. We also compare two RIS-based EH systems in terms of RIS locations, namely RIS-EH and RIS-information processing (RIS-IP). In the RIS-EH, RIS increases the amount of harvested energy, while in the RIS-IP, RIS is utilized to improve the information processing link. Closed-formed expressions of throughput, outage probability, and average harvested power are derived and confirmed via simulation. The L-EH model overestimates system performance, while the NL-EH model provides a realistic interpretation of EH system design.",

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author = "Hakan Alakoca and Mohammadreza Babaei and Lutfiye Durak-Ata and Ertugrul Basar",

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AU - Alakoca, Hakan

AU - Babaei, Mohammadreza

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AU - Basar, Ertugrul

PY - 2022/9/1

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N2 - We propose novel reconfigurable-intelligent-surface (RIS)-based energy harvesting (EH) systems with linear EH (L-EH) and non-linear EH (NL-EH) models where channels are exposed to Nakagami- m fading. We also compare two RIS-based EH systems in terms of RIS locations, namely RIS-EH and RIS-information processing (RIS-IP). In the RIS-EH, RIS increases the amount of harvested energy, while in the RIS-IP, RIS is utilized to improve the information processing link. Closed-formed expressions of throughput, outage probability, and average harvested power are derived and confirmed via simulation. The L-EH model overestimates system performance, while the NL-EH model provides a realistic interpretation of EH system design.

AB - We propose novel reconfigurable-intelligent-surface (RIS)-based energy harvesting (EH) systems with linear EH (L-EH) and non-linear EH (NL-EH) models where channels are exposed to Nakagami- m fading. We also compare two RIS-based EH systems in terms of RIS locations, namely RIS-EH and RIS-information processing (RIS-IP). In the RIS-EH, RIS increases the amount of harvested energy, while in the RIS-IP, RIS is utilized to improve the information processing link. Closed-formed expressions of throughput, outage probability, and average harvested power are derived and confirmed via simulation. The L-EH model overestimates system performance, while the NL-EH model provides a realistic interpretation of EH system design.

KW - Average harvested power

KW - energy harvesting

KW - outage probability

KW - reconfigurable intelligent surfaces

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JO - IEEE Communications Letters

JF - IEEE Communications Letters

IS - 9

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RIS-Empowered Non-Linear Energy Harvesting Communications Over Nakagami-m Channels

Abstract

Bibliographical note

Keywords

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