Rahmayati Alindra, M. O. Fauzan, Reyhan Ramadhan, S. Rahardjo
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引用次数: 4
Abstract
Electromagnetic spectrum utilization for communication is increasing. Visible Light Communication (VLC) with a bandwidth up to 390 THz is expected to be an alternative technology for a wireless communication system. VLC comprises light emitting diodes (LEDs) on the transmitter and photodiode on the receiver side, where LEDs can be modulated at high speed so that allows high-speed wireless communication. One of the most potential modulation techniques for VLC is orthogonal frequency division multiplexing (OFDM), but the challenge is the output signal must be real and positive. Therefore OFDM needs to be modified, by adding DC-bias called direct current-biased optical OFDM (DCO-OFDM) or by signal clipping called asymmetrically clipped optical OFDM (ACO-OFDM). In this paper, we explain the implementation of DCO-OFDM and ACO-OFDM systems that have been realized in the Simulink System Generator. Verification is conducted by examining three main subsystems i.e. symbol mapping, OFDM, and reverse subsystem for 6 (six) requirements. The result shows DCO-OFDM system 100% meets all requirements, while ACO-OFDM is only able to meet 83.3% even though it does not affect the interpretation of signal received.
通信领域对电磁频谱的利用日益增加。带宽高达390太赫兹的可见光通信(VLC)有望成为无线通信系统的替代技术。VLC包括发射器端的发光二极管(led)和接收器端的光电二极管,其中led可以高速调制,从而实现高速无线通信。正交频分复用(OFDM)是VLC最有潜力的调制技术之一,但其难点在于输出信号必须是真实的和正的。因此,需要对OFDM进行改进,通过增加直流偏置称为直流偏置光OFDM (DCO-OFDM)或通过信号剪切称为非对称剪切光OFDM (ACO-OFDM)。本文介绍了在Simulink System Generator中实现的DCO-OFDM和ACO-OFDM系统的实现。验证是通过检查三个主要子系统,即符号映射、OFDM和反向子系统来进行的,以满足6(6)个需求。结果表明,DCO-OFDM系统100%满足所有要求,而ACO-OFDM系统在不影响接收信号解释的情况下,仅满足83.3%的要求。
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