Theoretical analysis of received optical intensity of underwater image sensor based visible light communications using RGB-LEDs

2021 24th International Symposium on Wireless Personal Multimedia Communications (WPMC) Pub Date : 2021-12-14 DOI:10.1109/wpmc52694.2021.9700471

Kazune Yokoo, Y. Kozawa, T. Sawa

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引用次数: 1

Abstract

Recently, Underwater Visible Light Communication (UVLC) has been attracting attention as a short-range underwater wireless communication technology within the range of 100 m. UVLC enables high-speed communication mainly using photodiodes (PD) but requires precise alignment of the optical axis between the transmitter and receiver. In this paper, we investigate the UVLC using image sensors (IS) to establish a more stable communication link easily. Furthermore, focusing on the change of attenuation rate in the visible light band due to the effect of turbidity, chlorophyll concentration, in the underwater transmission channel, we propose an IS-based UVLC using RGBLEDs as the transmitting light, and theoretically evaluate the effect of turbidity in the sea. Specifically, when the chlorophyll concentration is low and high, the lowest attenuation wavelengths are of blue and red respectively. In this paper, we consider image sensor-based UVLC using RGB-LEDs and evaluate how water turbidity affects the transmission light. Also, we evaluate theoretically the effect of turbidity in the sea on the optical RGB signal using a general full-color camera taking into account underwater channel, general convex lens characteristics, and bayer color filter and analog to digital converters (DAC) at CMOS image sensor

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基于rgb - led可见光通信的水下图像传感器接收光强的理论分析

近年来，水下可见光通信(UVLC)作为一种100米范围内的短距离水下无线通信技术备受关注。UVLC主要使用光电二极管(PD)实现高速通信，但要求发射器和接收器之间的光轴精确对准。在本文中，我们研究了使用图像传感器(IS)来建立更稳定的通信链路的UVLC。此外，针对可见光波段受浊度、叶绿素浓度影响衰减速率的变化，提出了一种以RGBLEDs为透射光的基于is的UVLC，并从理论上评价了海洋浊度对UVLC的影响。具体来说，当叶绿素浓度较低和较高时，衰减波长最低的分别是蓝色和红色。在本文中，我们考虑使用rgb - led的基于图像传感器的UVLC，并评估水浊度如何影响透射光。此外，考虑到水下通道、一般凸透镜特性、拜耳滤色器和CMOS图像传感器上的模数转换器(DAC)，我们使用普通全彩相机从理论上评估了海洋浊度对光学RGB信号的影响

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2021 24th International Symposium on Wireless Personal Multimedia Communications (WPMC)

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