[IEEE 2018 International Conference on Wireless Communications, Signal Processing and Networking (WiSPNET) - Chennai (2018.3.22-2018.3.24)] 2018 International Conference on Wireless Communications, Signal Processing and Networking (WiSPNET) - An Efficient Photonic-based Millimeter Wavelength Switching Techniques Towards 5G

DOI：10.1109/WiSPNET.2018.8538742 出版年份：2018 更新时间：2025-09-23 15:22:29

摘要： Millimeter Waves (MMWs) operating at 30–300 GHz band, is very encouraging to the next-generation 5G wireless communication systems, supporting data rates of multiple Gbps per user. By using the Four Wave Mixing (FWM), Self-Phase Modulation (SPM) and Cross Phase Modulation (XPM) effects in the Semiconductor Optical Amplifier (SOA) and Erbium Doped Fiber Amplifier (EDFA), the photonic millimeter switching is realized. These effects can reduce the switching crosstalk since the Optical Single Sideband (OSSB) signal occupies the least optical bandwidth. The best operating conditions improve the Sideband Suppression Ratio (SSR) and at the same time reduce the intensity of unintended sideband signal. This leads to a dispersion-free transmission in the optical fiber and improves the data rate as required in 5G communication. In this paper, the wavelength switching of a 9 Gbps QPSK signal carried on the 30 GHz over a spacing of 1.6 nm as a function of probe wavelength of 1548.515 nm and pump wavelength of 1550.115 nm is achieved.

关键词： Millimeter Waves Four Wave Mixing Self Phase Modulation Cross Phase Modulation Erbium Doped Fiber Amplifier

作者： K. Digambar，R. K. Jeyachitra

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研究概述实验方案设备清单

研究目的

Investigating the performance of photonic-based millimeter wavelength switching techniques using FWM, SPM, and XPM effects in SOA and EDFA to achieve high data rates and reduced crosstalk for 5G wireless communication systems.

研究成果

The proposed photonic-based millimeter wavelength switching techniques using FWM, SPM, and XPM in EDFA outperform those in SOA, with higher quality factors and sideband suppression ratios. Specifically, XPM in EDFA achieves a quality factor of 64.6851 for 9 Gbps data rates, enabling efficient 5G communication with reduced crosstalk and dispersion-free transmission. Future work should explore parameter optimization to further enhance performance.

研究不足

The study is simulation-based using OptiSystem 7.0, which may not fully capture real-world complexities. Limitations include potential inaccuracies in modeling nonlinear effects, and the need for future work to consider varying parameters like channel spacing, input power, fiber length, and effective area. Experimental validation with physical devices is not included.

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设备名称型号厂家功能

OptiSystem 7.0 Optiwave
Simulation software used for modeling and analyzing photonic-based millimeter wavelength switching techniques, including FWM, SPM, and XPM effects in SOA and EDFA.
Semiconductor Optical Amplifier
Used to amplify optical signals and induce nonlinear effects such as FWM, SPM, and XPM for wavelength switching in the proposed system.

Erbium Doped Fiber Amplifier
Amplifies optical signals and facilitates nonlinear effects like SPM and XPM to achieve better performance in terms of BER and data rate compared to SOA.
Mach-Zehnder Modulator
Modulates the electrical input of QPSK signals with optical signals for transmission in the system.
PIN Photo Detector
Converts optical signals to electrical signals at the receiver section for further analysis.
Low Pass Bessel Filter
Filters the electrical signals to remove high-frequency noise and prepare for BER analysis.
Optical Spectrum Analyzer
Visualizes the output of FWM, SPM, and XPM switching techniques to analyze optical spectra and sideband suppression.
BER Analyzer
Measures bit error rate, quality factor, and other performance metrics of the communication system.
Continuous Wave Laser
Generates optical signals at specific wavelengths (e.g., 1548.515 nm and 1550.115 nm) for pumping and probing in the nonlinear effects.
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