Photo by jpvalery from unsplash
Abstract We apply a Peak Shrinking and Interpolating (PSI) scheme to improve the Peak-to-Pverage Power Ratio (PAPR) performance in Multiple Intermediate-Frequency-over-Fiber (M-IFoF) based mobile fronthaul. The key idea is to… Click to show full abstract
Abstract We apply a Peak Shrinking and Interpolating (PSI) scheme to improve the Peak-to-Pverage Power Ratio (PAPR) performance in Multiple Intermediate-Frequency-over-Fiber (M-IFoF) based mobile fronthaul. The key idea is to detect the high peaks of the signal and shrink them, and then the shrunk peak values are interpolated into the original signal to reduce the PAPR. We also compare the PSI technique with the previous Tone-Reservation (TR) technique and Phase Pre-Distortion (PDP) technique in both PAPR reduction effect and computational complexity. The simulation results indicate that the PSI scheme can reduce the PAPR by more than 4.3dB at 0.1%CCDF, which outperforms the two previous schemes with lower computational complexity. Furthermore, we find that the altering of the M-IFoF system parameters has little effect on the performance of PSI technique.
Journal Title: Digital Communications and Networks
Year Published: 2021
Link to full text (if available)
Share on Social Media: Sign Up to like & get
recommendations!