MoLoRa: intelligent mobile antenna system for enhanced LoRa reception in urban environments

Ningning Hou; Yifeng Wang; Xianjin Xia; Shiming Yu; Yuanqing Zheng; Tao Gu

doi:10.1145/3715014.3722075

MoLoRa: intelligent mobile antenna system for enhanced LoRa reception in urban environments

Ningning Hou, Yifeng Wang, Xianjin Xia, Shiming Yu, Yuanqing Zheng, Tao Gu

School of Computing

Research output: Chapter in Book/Report/Conference proceeding › Conference proceeding contribution › peer-review

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Abstract

LoRa technology promises to enable Internet of Things applications over large geographical areas. However, its performance is often hampered by poor channel quality in urban environments, where blockage and multipath effects are prevalent. Our study uncovers that a slight shift in the position or attitude of the receiving antenna can substantially improve the received signal quality. This phenomenon can be attributed to the rich multipath characteristics of wireless signal propagation in urban environments, wherein even small antenna movement can alter the dominant signal path or reduce the polarization angular difference between transceivers. Leveraging these key observations, we propose and implement MoLoRa, an intelligent mobile antenna system designed to enhance LoRa packet reception. At its core, MoLoRa represents the position and attitude of an antenna as a state and employs a statistical optimization method to search for states that offer optimal signal quality efficiently. Through extensive evaluation, we demonstrate that MoLoRa achieves a maximum Signal-to-Noise Ratio (SNR) gain of 13 dB in a few attempts, enabling formerly problematic blind spots to reconnect and strengthening links for other nodes.

Original language	English
Title of host publication	SenSys '25
Subtitle of host publication	proceedings of the 23rd ACM Conference on Embedded Networked Sensor Systems
Place of Publication	New York
Publisher	Association for Computing Machinery
Pages	424-436
Number of pages	13
ISBN (Electronic)	9798400714795
DOIs	https://doi.org/10.1145/3715014.3722075
Publication status	Published - 6 May 2025

Bibliographical note

Copyright the Author(s) 2025. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.

Alternative title of the host publication: "The 23rd ACM Conference on Embedded Networked Sensor Systems (SenSys ’25), May 6-9, 2025, Irvine, CA, USA"; "2025 23rd ACM Conference on Embedded Networked Sensor Systems (SenSys 2025)".

Keywords

Internet of Things
LoRa
packet reception
mobile antenna

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10.1145/3715014.3722075Licence: CC BY

Publisher version (open access)Final published version, 1.77 MBLicence: CC BY

Cite this

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title = "MoLoRa: intelligent mobile antenna system for enhanced LoRa reception in urban environments",

abstract = "LoRa technology promises to enable Internet of Things applications over large geographical areas. However, its performance is often hampered by poor channel quality in urban environments, where blockage and multipath effects are prevalent. Our study uncovers that a slight shift in the position or attitude of the receiving antenna can substantially improve the received signal quality. This phenomenon can be attributed to the rich multipath characteristics of wireless signal propagation in urban environments, wherein even small antenna movement can alter the dominant signal path or reduce the polarization angular difference between transceivers. Leveraging these key observations, we propose and implement MoLoRa, an intelligent mobile antenna system designed to enhance LoRa packet reception. At its core, MoLoRa represents the position and attitude of an antenna as a state and employs a statistical optimization method to search for states that offer optimal signal quality efficiently. Through extensive evaluation, we demonstrate that MoLoRa achieves a maximum Signal-to-Noise Ratio (SNR) gain of 13 dB in a few attempts, enabling formerly problematic blind spots to reconnect and strengthening links for other nodes.",

keywords = "Internet of Things, LoRa, packet reception, mobile antenna",

author = "Ningning Hou and Yifeng Wang and Xianjin Xia and Shiming Yu and Yuanqing Zheng and Tao Gu",

note = "Copyright the Author(s) 2025. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher. Alternative title of the host publication: {"}The 23rd ACM Conference on Embedded Networked Sensor Systems (SenSys {\textquoteright}25), May 6-9, 2025, Irvine, CA, USA{"}; {"}2025 23rd ACM Conference on Embedded Networked Sensor Systems (SenSys 2025){"}.",

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doi = "10.1145/3715014.3722075",

language = "English",

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MoLoRa: intelligent mobile antenna system for enhanced LoRa reception in urban environments. / Hou, Ningning; Wang, Yifeng; Xia, Xianjin et al.
SenSys '25: proceedings of the 23rd ACM Conference on Embedded Networked Sensor Systems. New York: Association for Computing Machinery, 2025. p. 424-436.

Research output: Chapter in Book/Report/Conference proceeding › Conference proceeding contribution › peer-review

TY - GEN

T1 - MoLoRa

T2 - intelligent mobile antenna system for enhanced LoRa reception in urban environments

AU - Hou, Ningning

AU - Wang, Yifeng

AU - Xia, Xianjin

AU - Yu, Shiming

AU - Zheng, Yuanqing

AU - Gu, Tao

N1 - Copyright the Author(s) 2025. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher. Alternative title of the host publication: "The 23rd ACM Conference on Embedded Networked Sensor Systems (SenSys ’25), May 6-9, 2025, Irvine, CA, USA"; "2025 23rd ACM Conference on Embedded Networked Sensor Systems (SenSys 2025)".

PY - 2025/5/6

Y1 - 2025/5/6

N2 - LoRa technology promises to enable Internet of Things applications over large geographical areas. However, its performance is often hampered by poor channel quality in urban environments, where blockage and multipath effects are prevalent. Our study uncovers that a slight shift in the position or attitude of the receiving antenna can substantially improve the received signal quality. This phenomenon can be attributed to the rich multipath characteristics of wireless signal propagation in urban environments, wherein even small antenna movement can alter the dominant signal path or reduce the polarization angular difference between transceivers. Leveraging these key observations, we propose and implement MoLoRa, an intelligent mobile antenna system designed to enhance LoRa packet reception. At its core, MoLoRa represents the position and attitude of an antenna as a state and employs a statistical optimization method to search for states that offer optimal signal quality efficiently. Through extensive evaluation, we demonstrate that MoLoRa achieves a maximum Signal-to-Noise Ratio (SNR) gain of 13 dB in a few attempts, enabling formerly problematic blind spots to reconnect and strengthening links for other nodes.

AB - LoRa technology promises to enable Internet of Things applications over large geographical areas. However, its performance is often hampered by poor channel quality in urban environments, where blockage and multipath effects are prevalent. Our study uncovers that a slight shift in the position or attitude of the receiving antenna can substantially improve the received signal quality. This phenomenon can be attributed to the rich multipath characteristics of wireless signal propagation in urban environments, wherein even small antenna movement can alter the dominant signal path or reduce the polarization angular difference between transceivers. Leveraging these key observations, we propose and implement MoLoRa, an intelligent mobile antenna system designed to enhance LoRa packet reception. At its core, MoLoRa represents the position and attitude of an antenna as a state and employs a statistical optimization method to search for states that offer optimal signal quality efficiently. Through extensive evaluation, we demonstrate that MoLoRa achieves a maximum Signal-to-Noise Ratio (SNR) gain of 13 dB in a few attempts, enabling formerly problematic blind spots to reconnect and strengthening links for other nodes.

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M3 - Conference proceeding contribution

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EP - 436

BT - SenSys '25

PB - Association for Computing Machinery

CY - New York

ER -

MoLoRa: intelligent mobile antenna system for enhanced LoRa reception in urban environments

Abstract

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Keywords

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