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Main Authors: Thakur, Chandrima, Ghosh, Priyanka, Badhai, Rashmita, Kundu, Sumit
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.10178
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author Thakur, Chandrima
Ghosh, Priyanka
Badhai, Rashmita
Kundu, Sumit
author_facet Thakur, Chandrima
Ghosh, Priyanka
Badhai, Rashmita
Kundu, Sumit
contents This paper analyzes a NOMA-enabled dual-Intelligent Reflecting Surface (IRS) relay network integrated with Ambient Backscatter (BS) communication. The system comprises a source, an energy-constrained relay with energy harvesting (EH) and BS capabilities, two NOMA users, and a BS node. The relay adopts a time-switching relaying (TSR) protocol to harvest energy and forward information ,while simultaneously enabling BS-based communication. Two IRS are deployed to enhance the S to R and R to (D1, D2) links under blockage conditions. Closed-form expressions for the Outage Probability (OP) and Throughput of both the main communication links and the BS-assisted secondary links are derived. Furthermore, throughput is analyzed under varying system parameters, including power allocation factors, reflection efficiency, IRS elements, and transmission rate. Monte Carlo simulations validate the analytical results. numerical findings reveal critical trade-offs between the main and RS links. The proposed framework provides useful insights for designing reliable and energy-efficient NOMA-IRS-aided BS networks for future IoT applications.
format Preprint
id arxiv_https___arxiv_org_abs_2511_10178
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle NOMA-Enabled Dual-IRS Relay Network Integrated with Ambient Backscatter Communication
Thakur, Chandrima
Ghosh, Priyanka
Badhai, Rashmita
Kundu, Sumit
Signal Processing
This paper analyzes a NOMA-enabled dual-Intelligent Reflecting Surface (IRS) relay network integrated with Ambient Backscatter (BS) communication. The system comprises a source, an energy-constrained relay with energy harvesting (EH) and BS capabilities, two NOMA users, and a BS node. The relay adopts a time-switching relaying (TSR) protocol to harvest energy and forward information ,while simultaneously enabling BS-based communication. Two IRS are deployed to enhance the S to R and R to (D1, D2) links under blockage conditions. Closed-form expressions for the Outage Probability (OP) and Throughput of both the main communication links and the BS-assisted secondary links are derived. Furthermore, throughput is analyzed under varying system parameters, including power allocation factors, reflection efficiency, IRS elements, and transmission rate. Monte Carlo simulations validate the analytical results. numerical findings reveal critical trade-offs between the main and RS links. The proposed framework provides useful insights for designing reliable and energy-efficient NOMA-IRS-aided BS networks for future IoT applications.
title NOMA-Enabled Dual-IRS Relay Network Integrated with Ambient Backscatter Communication
topic Signal Processing
url https://arxiv.org/abs/2511.10178