Battery Optimal Configuration of Transmission Settings in LoRa Moving Nodes

Ashirwad Gupta, M. Fujinami
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引用次数: 7

Abstract

This paper proposes a novel method of selecting battery-optimal transmission settings for moving nodes in Long Range (LoRa) system. In LoRa communication, transmission setting plays an important role as it affects coverage range, data rate, and battery consumption. Therefore, its optimal configuration is required to ensure successful communication with long battery life. However, with small data rate and resource-limited LoRa nodes, configuration of optimal settings becomes challenging. Current solutions require multiple transmissions for fixed distance between nodes and gateways to achieve the optimal settings. The existing methods become unsuitable for moving nodes because of continuous change in distance between the nodes and the gateways. Thus, each transmission would require different optimal setting. Due to lack of such configuration method, conventional method uses same fixed high energy setting for all transmissions to ensure high reliability, which results in shorter battery life. To minimize energy consumption without affecting reliability, the proposed method dynamically configures the optimal setting for each transmission depending on the distance between current location of the moving node and the nearest gateway, using path loss estimation. The simulation result shows that, for 95% reliability, the proposed method achieves 47% reduction in energy consumption as compared with conventional method.
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LoRa移动节点中传输设置的电池优化配置
提出了一种选择远程移动节点电池最佳传输设置的新方法。在LoRa通信中,传输设置对覆盖范围、数据速率、电池消耗等都有重要影响。因此,需要对其进行优化配置,以确保通信成功,电池寿命长。然而,由于数据速率小且资源有限,配置最优设置变得具有挑战性。目前的解决方案需要在节点和网关之间进行固定距离的多次传输,以实现最佳设置。由于节点与网关之间的距离不断变化,现有的方法不适用于移动节点。因此,每个变速器需要不同的最佳设置。由于缺乏这样的配置方法,传统方法为保证高可靠性,对所有变速器采用相同的固定高能量设置,导致电池寿命较短。为了在不影响可靠性的前提下最小化能量消耗,该方法利用路径损耗估计,根据移动节点当前位置与最近网关之间的距离,动态配置每次传输的最优设置。仿真结果表明,在95%的可靠性下,该方法比传统方法能耗降低47%。
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