热带地区高数据速率OFDM-FSO通信系统设计

2019 International Conference on Advanced Technologies for Communications (ATC) Pub Date : 2019-10-01 DOI:10.1109/ATC.2019.8924543

Fakhriy Hario, Eka Maulana, S. Pramono, Sapriesty Nainy Sari, Anas Machfudy Al Junaedi

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引用次数: 7

摘要

光纤空间光学技术(FSO)是一种提供低功耗、大容量和安全传输的通信系统技术，因为系统使用点对点激光信号。除了现有的优势之外，FSO还解决了一些需要良好LOS值和需要天气因素所需的多径衰落的主要挑战。主要的问题是，编译系统依赖于多雨的天气条件来进行高衰减。该方法是将FSO通信系统与正交频分复用(OFDM)技术和调频技术相结合。这种贡献是克服大气介质高速数据传输中出现的多径衰落问题的一种解决方案。其中一个挑战是使FSO系统在尽可能少的功率下更能抵抗阴雨天气。结果在16个QAM上以10 Gbps的速率接收到的功率为-2 dBm ~20。512dbm、4dbm ~ 20802 dBm、6 ~ 20901 dBm。

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Design of OFDM-FSO Communication System on High Data Rate for Tropical Climate Region

Fiber Space Optic technology (FSO) is a technology that provides communication systems with low power consumption, large capacity, and providing safe transmission because the system uses point to point laser signals. In addition to the advantages that exist, the FSO moves some of the main challenges that require good LOS values and requires multipath fading needed by weather factors. The main problem is that the compilation system depends on rainy weather conditions to high attenuation. The propose methode is to integrating FSO communication systems with Orthogonal Frequency Division Multiplexing (OFDM) technology and frequency modulation. This contribution is one solution to overcome the multipath fading problem that arises in high-speed data transmission through atmospheric media. One of the challenges is to make the FSO system more resistant to rainy weather perhaps with as little power as possible. The results power received on 16 QAM at 10 Gbps each other are -2 dBm ~20. 512 dBm, 4 dBm ~20,802 dBm, and 6 ~20,901 dBm.

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2019 International Conference on Advanced Technologies for Communications (ATC)

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