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Main Authors: Wu, Zhikun, Takeda, Kazuk, Gupta, Piyush, Zheng, Ruiming, Yang, Luanxia, Zhang, Chengjin, Fan, Zhifei, Xu, Hao, Mukkavilli, Kiran, Ji, Tingfang
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.15020
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author Wu, Zhikun
Takeda, Kazuk
Gupta, Piyush
Zheng, Ruiming
Yang, Luanxia
Zhang, Chengjin
Fan, Zhifei
Xu, Hao
Mukkavilli, Kiran
Ji, Tingfang
author_facet Wu, Zhikun
Takeda, Kazuk
Gupta, Piyush
Zheng, Ruiming
Yang, Luanxia
Zhang, Chengjin
Fan, Zhifei
Xu, Hao
Mukkavilli, Kiran
Ji, Tingfang
contents With the growing demand for massive internet of things (IoT), new IoT technology, namely ambient IoT (A-IoT), has been studied in the 3rd Generation Partnership Project (3GPP). A-IoT devices are batteryless and consume ultra-low power, relying on energy harvesting and energy storage to capture a small amount of energy for communication. A promising usecase of A-IoT is inventory, where a reader communicates with hundreds of A-IoT devices to identify them. However, energy harvesting required before communication can significantly delay or even fail inventory completion. In this work, solutions including duty cycled monitoring (DCM), device grouping and low-power receiving chain are proposed. Evaluation results show that the time required for a reader to complete an inventory procedure for hundreds of A-IoT devices can be reduced by 50% to 83% with the proposed methods.
format Preprint
id arxiv_https___arxiv_org_abs_2501_15020
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Fast Inventory for 3GPP Ambient IoT Considering Device Unavailability due to Energy Harvesting
Wu, Zhikun
Takeda, Kazuk
Gupta, Piyush
Zheng, Ruiming
Yang, Luanxia
Zhang, Chengjin
Fan, Zhifei
Xu, Hao
Mukkavilli, Kiran
Ji, Tingfang
Signal Processing
With the growing demand for massive internet of things (IoT), new IoT technology, namely ambient IoT (A-IoT), has been studied in the 3rd Generation Partnership Project (3GPP). A-IoT devices are batteryless and consume ultra-low power, relying on energy harvesting and energy storage to capture a small amount of energy for communication. A promising usecase of A-IoT is inventory, where a reader communicates with hundreds of A-IoT devices to identify them. However, energy harvesting required before communication can significantly delay or even fail inventory completion. In this work, solutions including duty cycled monitoring (DCM), device grouping and low-power receiving chain are proposed. Evaluation results show that the time required for a reader to complete an inventory procedure for hundreds of A-IoT devices can be reduced by 50% to 83% with the proposed methods.
title Fast Inventory for 3GPP Ambient IoT Considering Device Unavailability due to Energy Harvesting
topic Signal Processing
url https://arxiv.org/abs/2501.15020