Optical Communication and Positioning Method of Underwater Observation Apparatus for Environmental Monitor

2020 10th Annual Computing and Communication Workshop and Conference (CCWC) Pub Date : 2020-01-01 DOI:10.1109/CCWC47524.2020.9031130

Eriko Enomoto, Takahiro Kohno, Jun Yamada, M. Shimojo, S. Matsuo, U. Rajagopalan, So Yoon Lee, Xiaobin Zhang, Y. Koike, Hideki Yokoi, Hiroyuki Nishikawa, S. Nagasawa, N. Futai

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Abstract

This paper proposes an optical communication and positioning method of underwater observation apparatus for environmental monitor using distance image sensor. The glass ball underwater observation apparatus is expected to realize the low cost monitoring system. We tried to apply the distance image sensor by CMOS to ranging in underwater environment by remodeling a retailed sensor unit. In the distance image sensor by CMOS on land application, both the emitter unit and the receiver unit are installed in a same board. However, the emitter unit and the receiver have to be installed separately in the case that the ranging is employed to measure the distance between the emitter on the sea surface and the receiver inside the glass ball. In the separate setting of the distance image sensor by CMOS, the accuracy of the measurement result is investigated. Additionally, influence of both the receiver unit angle relative to the emitter unit and the existence of the glass ball is also examined on the distance position. Finally, it is found that the proposed CMOS image sensor installation is valid highly in the underwater application.

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环境监测水下观测装置的光通信与定位方法

提出了一种基于距离图像传感器的水下环境监测设备光通信与定位方法。玻璃球水下观测装置有望实现低成本的水下监测系统。我们尝试通过改造零售传感器单元，将CMOS距离图像传感器应用于水下环境测距。在陆地应用的CMOS距离图像传感器中，发射单元和接收单元安装在同一电路板上。但是，如果使用测距测量海面上的发射器与玻璃球内的接收器之间的距离，则发射器单元和接收器必须分开安装。在用CMOS单独设置距离图像传感器的情况下，对测量结果的精度进行了研究。此外，还研究了接收单元相对于发射单元的角度和玻璃球的存在对距离位置的影响。最后，发现所提出的CMOS图像传感器安装在水下应用中是高度有效的。

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2020 10th Annual Computing and Communication Workshop and Conference (CCWC)

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