Real-time Wave Monitoring on Coastal Areas Using LPWAN-Based Embedded Systems

M. Carandell, D. Toma, Carola Artero, M. Gasulla, J. Río
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引用次数: 2

Abstract

A new embedded system is presented for real-time wave monitoring on coastal areas using SigFox communication. SigFox is a Low-Power Wide-Area Network technology that has been rarely used in coastal marine monitoring. The system is based on the low-power TD1205P module that includes a microcontroller, an accelerometer, a GNSS receiver and a SigFox transceiver. Each hour, the module estimates the wave's maximum height ($H$max) and mean period (Tz), determines the GPS position, and wirelessly transmits the data through the SigFox network. The procedure for wave parameter estimation is based on the zero-upcrossing method using the vertical acceleration data. It was experimentally validated by attaching the embedded system to a moored buoy and comparing $H$max and Tzwith that provided by a seafloor acoustic wave and current profiler, used as a reference. Results over a period of two months show a good match for $H$max but less for Tz, which crosscorrelation values at zero lag of about 0.85 and 0.5, respectively. Power tests of the embedded system were also performed resulting in a lifetime estimation of 420 days with a battery pack of 3 Ah.
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基于低功耗广域网的嵌入式系统在沿海地区的实时波浪监测
提出了一种基于SigFox通信的沿海地区实时波浪监测嵌入式系统。SigFox是一种低功耗广域网技术,很少用于沿海海洋监测。该系统基于低功耗TD1205P模块,该模块包括微控制器、加速度计、GNSS接收器和SigFox收发器。每小时,该模块估计波浪的最大高度($H$max)和平均周期(Tz),确定GPS位置,并通过SigFox网络无线传输数据。波浪参数的估计过程是基于垂直加速度数据的零上交叉法。通过将嵌入式系统连接到系泊浮标上,并将$H$max和tzs与海底声波和电流剖面仪提供的值进行比较,作为参考,实验验证了该系统的有效性。两个月的结果表明,$H$max匹配良好,但Tz不太匹配,它们在零滞后时的互相关值分别约为0.85和0.5。还对嵌入式系统进行了电源测试,结果显示,在3 Ah的电池组下,该系统的寿命估计为420天。
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