Arduino平台在风浪记录中的应用

IF 0.7 Q4 OCEANOGRAPHY Physical Oceanography Pub Date : 2020-09-01 DOI:10.22449/0233-7584-2020-4-467-479
V. E. Smolov, A. Rozvadovskiy
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引用次数: 2

摘要

目的。本文描述了一种用于记录风浪的设备(放置在Arduino平台上)的开发。它是为俄罗斯科学院海洋水物理研究所的测波仪设计的,该测波仪安装并应用于Katsiveli的海洋平台。该设备旨在以离线模式记录和存储测波仪数据。这样,它就不受电涌和环境影响(灰尘、潮湿、温度下降)的影响。方法与结果。两个版本的arduino放置的记录设备表示:单弦和六弦波计。介绍了它们的硬件和软件;给出了应用软件算法框图和电气连接方案。特别注意设备的稳定功能,即数据读取、记录和存储的连续性,以及获得的测量结果与记录时间的同步。引用了一年中记录的海平面高度的例子。结论。本文介绍了基于arduino的风波记录装置的开发、构造和测试。2015年以来,设备离线运行表现出高效率、可靠性和稳定性;在这种情况下,丢失测量结果的风险是最小的。
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Application of the Arduino Platform for Recording Wind Waves
Purpose. The paper describes development of a device (placed on the Arduino platform) for recording wind waves. It is intended for the wave gauge of Marine Hydrophysical Institute, RAS, which is installed and applied at the oceanographic platform in Katsiveli. The device is designed to record and store the wave gauge data in an off-line mode. At that, it is protected from power surges and environmental effects (dust, moisture, temperature drops). Methods and Results. Two versions of the Arduino-placed recording device are represented: for the single- and six-string wave gauges. Their hardware and software are described; block diagram of the applied software algorithms and electrical connection schemes are given. Particular attention is paid to stable functioning of the devices, namely continuity of the data reading, recording and storing, as well as synchronization of the obtained measurement results with the time of record. The example of the sea level elevations recorded in course of a year is cited. Conclusions. Development, construction and testing of the Arduino-placed device for recording wind waves are described in the paper. Since 2015, the off-line operation of the device has shown high efficiency, reliability and stability; at that, the risks of losing the measurement results are minimal.
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来源期刊
Physical Oceanography
Physical Oceanography OCEANOGRAPHY-
CiteScore
1.80
自引率
25.00%
发文量
8
审稿时长
24 weeks
期刊最新文献
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