X-MAC: Achieving High Scalability via Imperfect-Orthogonality Aware Scheduling in LPWAN

Zhuqing Xu; Junzhou Luo; Zhimeng Yin; Shuai Wang; Ciyuan Chen; Jingkai Lin; Runqun Xiong; Tian He

doi:10.1109/ICNP55882.2022.9940331

X-MAC: Achieving High Scalability via Imperfect-Orthogonality Aware Scheduling in LPWAN

Zhuqing Xu, Junzhou Luo, Zhimeng Yin, Shuai Wang, Ciyuan Chen, Jingkai Lin, Runqun Xiong, Tian He

Department of Computer Science

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

9 Citations (Scopus)

Abstract

As an emerging Low-Power Wide Area Networks (LPWAN) technology, LoRa is dedicated to providing long-range connections for pervasive Internet-of-Things devices. As LoRa operates in the unlicensed spectrum, transmissions from multiple LoRa end-devices inevitably collide into each other, leading to packet losses and increased transmission delay. Targeting at collisions caused by interferences under the same spreading factor (SF) settings, researchers introduce multiple lines of techniques. Despite their efforts, these techniques commonly neglect the potential collisions caused by interferences under different SF settings, which are resulted by the imperfect orthogonality. Given the disparate transmission power configurations and diverse deployed locations, the collisions under different SFs commonly exist in practical networks, and significantly limit the LoRa reliability. In this paper, we present X-MAC, the first scheduler that is aware of imperfect orthogonality. Technically, X-MAC detects the collisions under different SFs via tracking historical transmissions, and further performs dynamic channel scheduling to avoid collisions caused by interferences both under the same and different SFs. Extensive evaluations on testbed devices show that, compared with the state-of-the-art methods, X-MAC boosts the network scalability (number of concurrent end-devices) by 2.41× with packet reception rate (PRR) requirement of > 95%.

Original language	English
Title of host publication	2022 IEEE 30th International Conference on Network Protocols (ICNP 2022)
Publisher	IEEE
ISBN (Electronic)	978-1-6654-8234-9
DOIs	https://doi.org/10.1109/ICNP55882.2022.9940331
Publication status	Published - 2022
Event	30th IEEE International Conference on Network Protocols, ICNP 2022 - Lexington, United States Duration: 30 Oct 2022 → 2 Nov 2022

Publication series

Name	Proceedings - International Conference on Network Protocols, ICNP
Volume	2022-October
ISSN (Print)	1092-1648

Conference

Conference	30th IEEE International Conference on Network Protocols, ICNP 2022
Place	United States
City	Lexington
Period	30/10/22 → 2/11/22

Bibliographical note

Full text of this publication does not contain sufficient affiliation information. With consent from the author(s) concerned, the Research Unit(s) information for this record is based on the existing academic department affiliation of the author(s).

Funding

We thank the shepherd and anonymous reviewers for insightful comments. This work was supported by National Key R&D Program of China 2018AAA0100500, Fundamental Research Funds for the Central Universities, NSFC under Grants No. 62172091, 61602112, 61632008, 61972085, and a grant from the Research Grants Council of the Hong Kong Special Administrative Region, China (No. CityU 21216822).

RGC Funding Information

RGC-funded

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10.1109/ICNP55882.2022.9940331

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Cite this

Xu, Z., Luo, J., Yin, Z., Wang, S., Chen, C., Lin, J., Xiong, R., & He, T. (2022). X-MAC: Achieving High Scalability via Imperfect-Orthogonality Aware Scheduling in LPWAN. In 2022 IEEE 30th International Conference on Network Protocols (ICNP 2022) (Proceedings - International Conference on Network Protocols, ICNP; Vol. 2022-October). IEEE. https://doi.org/10.1109/ICNP55882.2022.9940331

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title = "X-MAC: Achieving High Scalability via Imperfect-Orthogonality Aware Scheduling in LPWAN",

abstract = "As an emerging Low-Power Wide Area Networks (LPWAN) technology, LoRa is dedicated to providing long-range connections for pervasive Internet-of-Things devices. As LoRa operates in the unlicensed spectrum, transmissions from multiple LoRa end-devices inevitably collide into each other, leading to packet losses and increased transmission delay. Targeting at collisions caused by interferences under the same spreading factor (SF) settings, researchers introduce multiple lines of techniques. Despite their efforts, these techniques commonly neglect the potential collisions caused by interferences under different SF settings, which are resulted by the imperfect orthogonality. Given the disparate transmission power configurations and diverse deployed locations, the collisions under different SFs commonly exist in practical networks, and significantly limit the LoRa reliability. In this paper, we present X-MAC, the first scheduler that is aware of imperfect orthogonality. Technically, X-MAC detects the collisions under different SFs via tracking historical transmissions, and further performs dynamic channel scheduling to avoid collisions caused by interferences both under the same and different SFs. Extensive evaluations on testbed devices show that, compared with the state-of-the-art methods, X-MAC boosts the network scalability (number of concurrent end-devices) by 2.41× with packet reception rate (PRR) requirement of > 95%.",

author = "Zhuqing Xu and Junzhou Luo and Zhimeng Yin and Shuai Wang and Ciyuan Chen and Jingkai Lin and Runqun Xiong and Tian He",

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Xu, Z, Luo, J, Yin, Z, Wang, S, Chen, C, Lin, J, Xiong, R & He, T 2022, X-MAC: Achieving High Scalability via Imperfect-Orthogonality Aware Scheduling in LPWAN. in 2022 IEEE 30th International Conference on Network Protocols (ICNP 2022). Proceedings - International Conference on Network Protocols, ICNP, vol. 2022-October, IEEE, 30th IEEE International Conference on Network Protocols, ICNP 2022, Lexington, United States, 30/10/22. https://doi.org/10.1109/ICNP55882.2022.9940331

X-MAC: Achieving High Scalability via Imperfect-Orthogonality Aware Scheduling in LPWAN. / Xu, Zhuqing; Luo, Junzhou; Yin, Zhimeng et al.
2022 IEEE 30th International Conference on Network Protocols (ICNP 2022). IEEE, 2022. (Proceedings - International Conference on Network Protocols, ICNP; Vol. 2022-October).

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

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AU - Xu, Zhuqing

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AU - Yin, Zhimeng

AU - Wang, Shuai

AU - Chen, Ciyuan

AU - Lin, Jingkai

AU - Xiong, Runqun

AU - He, Tian

N1 - Full text of this publication does not contain sufficient affiliation information. With consent from the author(s) concerned, the Research Unit(s) information for this record is based on the existing academic department affiliation of the author(s).

PY - 2022

Y1 - 2022

N2 - As an emerging Low-Power Wide Area Networks (LPWAN) technology, LoRa is dedicated to providing long-range connections for pervasive Internet-of-Things devices. As LoRa operates in the unlicensed spectrum, transmissions from multiple LoRa end-devices inevitably collide into each other, leading to packet losses and increased transmission delay. Targeting at collisions caused by interferences under the same spreading factor (SF) settings, researchers introduce multiple lines of techniques. Despite their efforts, these techniques commonly neglect the potential collisions caused by interferences under different SF settings, which are resulted by the imperfect orthogonality. Given the disparate transmission power configurations and diverse deployed locations, the collisions under different SFs commonly exist in practical networks, and significantly limit the LoRa reliability. In this paper, we present X-MAC, the first scheduler that is aware of imperfect orthogonality. Technically, X-MAC detects the collisions under different SFs via tracking historical transmissions, and further performs dynamic channel scheduling to avoid collisions caused by interferences both under the same and different SFs. Extensive evaluations on testbed devices show that, compared with the state-of-the-art methods, X-MAC boosts the network scalability (number of concurrent end-devices) by 2.41× with packet reception rate (PRR) requirement of > 95%.

AB - As an emerging Low-Power Wide Area Networks (LPWAN) technology, LoRa is dedicated to providing long-range connections for pervasive Internet-of-Things devices. As LoRa operates in the unlicensed spectrum, transmissions from multiple LoRa end-devices inevitably collide into each other, leading to packet losses and increased transmission delay. Targeting at collisions caused by interferences under the same spreading factor (SF) settings, researchers introduce multiple lines of techniques. Despite their efforts, these techniques commonly neglect the potential collisions caused by interferences under different SF settings, which are resulted by the imperfect orthogonality. Given the disparate transmission power configurations and diverse deployed locations, the collisions under different SFs commonly exist in practical networks, and significantly limit the LoRa reliability. In this paper, we present X-MAC, the first scheduler that is aware of imperfect orthogonality. Technically, X-MAC detects the collisions under different SFs via tracking historical transmissions, and further performs dynamic channel scheduling to avoid collisions caused by interferences both under the same and different SFs. Extensive evaluations on testbed devices show that, compared with the state-of-the-art methods, X-MAC boosts the network scalability (number of concurrent end-devices) by 2.41× with packet reception rate (PRR) requirement of > 95%.

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ER -

X-MAC: Achieving High Scalability via Imperfect-Orthogonality Aware Scheduling in LPWAN

Abstract

Publication series

Conference

Bibliographical note

Funding

RGC Funding Information

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ECS: Enabling Interference Resilience for Low-Power Wide-Area Networks through a Cross-Layer Framework

Cite this

X-MAC: Achieving High Scalability via Imperfect-Orthogonality Aware Scheduling in LPWAN

Abstract

Publication series

Conference

Bibliographical note

Funding

RGC Funding Information

Access Output

Other Access Options

Permanent Link

Other Files and Links

Fingerprint

Projects

ECS: Enabling Interference Resilience for Low-Power Wide-Area Networks through a Cross-Layer Framework

Cite this