一种低成本LoRa网关的可碰撞自适应数据速率算法

Q3 Arts and Humanities

Icon Pub Date : 2023-03-01 DOI:10.1109/ICNLP58431.2023.00087

Honggang Wang, Peidong Pei, Ruoyu Pan, Lihua Jie, Ruixue Yu, Kai Wu

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引用次数: 0

摘要

LoRa (Long Range)是一种专为低功率广域网(LPWAN)设计的无线通信技术，以其开放性和网络部署的适应性，为多种物联网应用和设备间通信提供了便利。然而，在实际的LoRa网络部署中，传统的静态链路传输方案不能充分利用动态信道环境下的可用信道资源，导致网络性能不理想。为了解决这个问题，本文提出了一种针对低成本网关的更有效的自适应数据速率(ADR)算法。该算法采用模糊支持向量机(FSVM)对链路质量进行精确分类，并根据不同的链路质量采用不同的链路自适应算法。值得注意的是，该算法同时考虑了链路级性能和MAC层性能。实验测量表明，我们提出的算法在单端设备(ED)和多端设备(ED)场景下的分组接收率(PRR)和网络吞吐量方面都优于标准的LoRaWAN ADR算法。具体来说，在multi- ed场景下，与LoRaWAN ADR算法相比，该算法的吞吐量提高了34.12%，数据包接收率提高了26%。这些发现表明，所提出的算法在网络吞吐量和数据包接收率方面取得了实质性的增强。

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A Collision-Reducible Adaptive Data Rate Algorithm for Low-cost LoRa Gateways

LoRa (Long Range), a wireless communication technology designed for Low Power Wide Area Networks (LPWAN), facilitates diverse IoT applications and inter-device communication by virtue of its openness and adaptable network deployment. However, the conventional static link transmission scheme employed in practical LoRa network deployment fails to fully exploit the available channel resources in dynamic channel environments, resulting in suboptimal network performance. To address this issue, this paper proposes a more efficient Adaptive Data Rate (ADR) algorithm tailored for low-cost gateways. This algorithm incorporates fuzzy support vector machine (FSVM) to accurately classify link quality and employs distinct link adaptation algorithms based on varying link qualities. Notably, the algorithm considers both link-level performance and MAC layer performance. Experimental measurements demonstrate that our proposed algorithm surpasses the standard LoRaWAN ADR algorithm in terms of packet reception rate (PRR) and network throughput in both single end device (ED) and multi EDs scenarios. Specifically, in multi-EDs scenarios, the proposed algorithm yields a remarkable 34.12% improvement in throughput and a significant 26% enhancement in packet reception rate compared to the LoRaWAN ADR algorithm. These findings demonstrate the substantial enhancements achieved by the proposed algorithm in terms of network throughput and packet reception rate.

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来源期刊

Icon Arts and Humanities-History and Philosophy of Science

CiteScore

0.30

自引率

0.00%

发文量