Underwater optical camera communications based on a multispectral camera and spectral variations of the LED emission

Proceedings of the Workshop on Light Up the IoT Pub Date : 2020-09-21 DOI:10.1145/3412449.3412554

Behnaz Majlesein, Julio Francisco Rufo Torres, Daniel Moreno, V. Guerra, J. Rabadán

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引用次数: 3

Abstract

Optical Camera Communication (OCC) applications have intensively used in recent years. Underwater Optical Wireless Communications (UWOC) are one of the most viable alternatives today in underwater environments, compared to traditional acoustic communications or radio communications. UWOC present important and remarkable advantages such as their available bandwidth and the possibility of using COTS devices already present in underwater environments such as LED lighting lamps. This work proposes using a multispectral or hyperspectral camera as an OCC receiver, in short range underwater links, to take advantage of the high spectral resolution of this type of devices regarding conventional cameras. Furthermore, spectral features of the LEDs, usually used as transmitters in OCC, are affected by temperature. Hence, one of the goals of this work is to benefit from those spectral variations that will be grasped by the multispectral camera and thus achieve a new data channel. Therefore, different communication channels could be obtained from a single light source.

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水下光学摄像机通信基于多光谱摄像机和光谱变化的LED发射

近年来，光学摄像机通信(OCC)得到了广泛的应用。与传统的声学通信或无线电通信相比，水下光学无线通信(UWOC)是当今水下环境中最可行的替代方案之一。UWOC具有重要而显着的优势，例如其可用带宽和使用已经存在于水下环境中的COTS设备(如LED照明灯)的可能性。本工作建议在短距离水下链路中使用多光谱或高光谱相机作为OCC接收器，以利用这类设备相对于传统相机的高光谱分辨率。此外，通常用作OCC发射机的led的光谱特性受温度的影响。因此，这项工作的目标之一是利用多光谱相机将掌握的这些光谱变化，从而实现新的数据通道。因此，可以从一个光源获得不同的通信信道。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the Workshop on Light Up the IoT

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