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Main Authors: Peng, Qihao, Luo, Qu, Chu, Zheng, Ye, Neng, Ren, Hong, Pan, Cunhua, Xiao, Lixia, Xiao, Pei
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.15784
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author Peng, Qihao
Luo, Qu
Chu, Zheng
Ye, Neng
Ren, Hong
Pan, Cunhua
Xiao, Lixia
Xiao, Pei
author_facet Peng, Qihao
Luo, Qu
Chu, Zheng
Ye, Neng
Ren, Hong
Pan, Cunhua
Xiao, Lixia
Xiao, Pei
contents In this paper, we proposed a hybrid simultaneous wireless information and power transfer (SWIPT)-enabled multiple-input multiple-output (MIMO) architecture, where the base station (BS) uses a conventional RF transmitter for downlink transmission and a Rydberg atomic quantum receiver (RAQR) for receiving uplink signal from Internet of Things (IoT) devices. To fully exploit this integration, we jointly design the transmission scheme and the power-splitting strategy to maximize the sum rate, which leads to a non-convex problem. To address this challenge, we first derive closed-form lower bounds on the uplink achievable rates for maximum ratio combining (MRC) and zero-forcing (ZF), as well as on the downlink rate and harvested energy for maximum ratio transmission (MRT) and ZF precoding. Building upon these bounds, we propose an iterative algorithm relying on the best monomial approximation and geometric programming (GP) to solve the non-convex problem. Finally, simulations validate the tightness of our derived lower bounds and demonstrate the superiority of the proposed algorithm over benchmark schemes. Importantly, by integrating RAQR with SWIPT-enabled MIMO, the BS can reliably detect weak uplink signals from IoT devices powered only by harvested energy, enabling battery-free communication.
format Preprint
id arxiv_https___arxiv_org_abs_2510_15784
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle From Active to Battery-Free: Rydberg Atomic Quantum Receivers for Self-Sustained SWIPT-MIMO Networks
Peng, Qihao
Luo, Qu
Chu, Zheng
Ye, Neng
Ren, Hong
Pan, Cunhua
Xiao, Lixia
Xiao, Pei
Signal Processing
In this paper, we proposed a hybrid simultaneous wireless information and power transfer (SWIPT)-enabled multiple-input multiple-output (MIMO) architecture, where the base station (BS) uses a conventional RF transmitter for downlink transmission and a Rydberg atomic quantum receiver (RAQR) for receiving uplink signal from Internet of Things (IoT) devices. To fully exploit this integration, we jointly design the transmission scheme and the power-splitting strategy to maximize the sum rate, which leads to a non-convex problem. To address this challenge, we first derive closed-form lower bounds on the uplink achievable rates for maximum ratio combining (MRC) and zero-forcing (ZF), as well as on the downlink rate and harvested energy for maximum ratio transmission (MRT) and ZF precoding. Building upon these bounds, we propose an iterative algorithm relying on the best monomial approximation and geometric programming (GP) to solve the non-convex problem. Finally, simulations validate the tightness of our derived lower bounds and demonstrate the superiority of the proposed algorithm over benchmark schemes. Importantly, by integrating RAQR with SWIPT-enabled MIMO, the BS can reliably detect weak uplink signals from IoT devices powered only by harvested energy, enabling battery-free communication.
title From Active to Battery-Free: Rydberg Atomic Quantum Receivers for Self-Sustained SWIPT-MIMO Networks
topic Signal Processing
url https://arxiv.org/abs/2510.15784