32通道波分复用光通信系统的设计

2022 International Conference on Knowledge Engineering and Communication Systems (ICKES) Pub Date : 2022-12-28 DOI:10.1109/ICKECS56523.2022.10059979

C. Supraja, T. Kavitha, C. Pappa

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引用次数: 0

摘要

密集波分复用(DWDM)是光通信中的一种传输帧网络。在这种情况下，光信号被用来同时传输各种频率的数据。DWDM通过现有的光纤多通道通信系统实现数据的收发。这为提高系统的极限提供了一种实用的方法。在这种方法中，使用光纤通信在更大的距离上传输和接收更多的数据。信号的频率范围在300GHz到3000THz之间。色散补偿光纤(DCF)的使用可以完全补偿32路DWDM的色散。DWDM是一种允许我们在不更换网络系统的情况下提高数据速率的网络。我们的MATLAB软件将允许我们在32通道仿真过程中修改信号一致性、功率信号、噪声信号、平均误码率和信噪比以及DWDM调制中的q因子。网络的容量在增长，唯一的变化发生在接收端。为了希望公司客户为买家提供多种类型的帮助，使我们能够提升数据，我们对DWDM信号进行了模拟和优化，通过放大器减少到50公里。

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Design of 32 Channel Wavelength Division Multiplexing Optical Communication System

The Dense Wavelength Division Multiplexing (DWDM) is a transmission frame network in optical communication. In this the light signals are utilized to transmit data of various frequencies at same time. DWDM plays a role in sending and receiving data through the existing fiber multi-channel communication system. This provides a practical method for increasing the system's limit. In this method fiber communication is used to transmit and receive more data over larger distance. The frequency of the signals ranges between 300GHz to 3000THz. The usage of Dispersion compensates fiber (DCF) can totally compensate for dispersion of 32 channel DWDM. DWDM is a network that allows us to increase data rates without having to replace the network system. Our MATLAB software will allow us all to modify signal consistency, power signal, noise signal, average BER and SNR and Q-factor in DWDM modulation in the 32-channel simulation process. The network's capacity is growing, with the sole change occurring at the receiving end. In order to desire the company clients to offer buyers with many types of assistance that allows us to boost data, we have DWDM this signal is simulated and optimized by reducing to 50km through amplifier.

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2022 International Conference on Knowledge Engineering and Communication Systems (ICKES)

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