Evaluating Harmonic Interference Beyond 5G
Abstract
Fifth-generation mobile networks will provide answers to this high demand for mobile traffic, since different types of services require distinct solutions. Even millimeter wave spectrum can provide very High data rates. Fiber has several advantages over other media for analog radio, including low cost, economic power consumption and greater spectral efficiency. As a result, mmWave ARoF promises to provide a common radio interface for the public in 5G fronthaul architectures.The 5G standard employs orthogonal frequency division multiplexing and thus the 5G mmWave ARoF systems should also use this waveform. However, among all of the detrimental parameters in mmWave wideband ARoF systems, phase noise is one. Consequently, in this study we experimentally investigate phase noise using our experimental setup. The aforementioned setup architecture significantly facilitates the iterative bumps of final phase noise which can be accomplished, stage by ionic level by use of several additional Faraday- cages. In addition, it offers an original method for minimizing OFDM receiver phase distortion. To validate the effectiveness of this method, we empirically evaluate it by adapting the system to other noise phases and subcarrier spacings. The results exemplarymmWave OFDM ARoF for 5G and beyond, and illustrates the workability of proposed technique on scenarios like this.