Optimising O-to-U Band Transmission Using Fast ISRS Gaussian Noise Numerical Integral Model

no code implementations • 31 Jan 2024 • Mindaugas Jarmolovičius, Daniel Semrau, Henrique Buglia, Mykyta Shevchenko, Filipe M. Ferreira, Eric Sillekens, Polina Bayvel, Robert I. Killey

We model the transmission of ultrawideband (UWB) signals, including wavelength-dependent fibre parameters: dispersion, nonlinear coefficient and effective fibre core area.

valid

Throughput Maximisation in Ultra-wideband Hybrid-amplified Links

no code implementations • 15 Nov 2023 • Henrique Buglia, Eric Sillekens, Lidia Galdino, Robert Killey, Polina Bayvel1

A semi-analytical, real-time nonlinear-interference model including ASE noise in hybrid-amplified links is introduced.

Dual band wireless transmission over 75-150GHz millimeter wave carriers using frequency-locked laser pairs

no code implementations • 27 Oct 2023 • Zichuan Zhou, Amany Kassem, James Seddon, Eric Sillekens, Izzat Darwazeh, Polina Bayvel, Zhixin Liu

We generate and transmit 75-GHz-bandwidth OFDM signals over the air using three mutually frequency-locked lasers, achieving minimal frequency gap between the wireless W and D bands using optical-assisted approaches, resulting in 173. 5 Gb/s detected capacity.

Random Walk for modelling Multi Core Fiber cross-talk and step distribution characterisation

no code implementations • 31 Aug 2020 • Alessandro Ottino, Hui Yuan, Yunnuo Xu, Eric Sillekens, Georgios Zervas

In addition, this model is consistent with statistical analysis such as short term average crosstalk (STAXT), keeping the same convergence properties and it showed to be almost independent to time-window.

Experimental Analysis on Variations and Accuracy of Crosstalk in Trench-Assisted Multi-core Fibers

no code implementations • 7 Aug 2020 • Hui Yuan, Alessandro Ottino, Yunnuo Xu, Arsalan Saljoghei, Tetsuya Hayashi, Tetsuya Nakanishi, Eric Sillekens, Lidia Galdino, Polina Bayvel, Zhixin Liu, Georgios Zervas

Space division multiplexing using multi-core fiber (MCF) is a promising solution to cope with the capacity crunch in standard single-mode fiber based optical communication systems.

Modelling the delayed nonlinear fiber response in coherent optical communications

no code implementations • 17 Jun 2020 • Daniel Semrau, Eric Sillekens, Robert I. Killey, Polina Bayvel

ISRS is a nonlinear effect that redistributes optical power from high to lower frequencies during propagation.

The Benefits of Using the S-Band in Optical Fiber Communications and How to Get There

no code implementations • 13 Jun 2020 • Daniel Semrau, Eric Sillekens, Robert I. Killey, Polina Bayvel

The throughput gains of extending the optical transmission bandwidth to the S+C+L-band are quantified using a Gaussian Noise model that accounts for inter-channel stimulated Raman scattering (ISRS).

Modulation Format Dependent, Closed-Form Formula for Estimating Nonlinear Interference in S+C+L Band Systems

no code implementations • 8 Jun 2020 • Daniel Semrau, Lidia Galdino, Eric Sillekens, Domanic Lavery, Robert I. Killey, Polina Bayvel

A closed-form formula for the nonlinear interference estimation of arbitrary modulation formats in ultra-wideband transmission systems is presented.

Experimental Demonstration of Learned Time-Domain Digital Back-Propagation

no code implementations • 23 Dec 2019 • Eric Sillekens, Wenting Yi, Daniel Semrau, Alessandro Ottino, Boris Karanov, Sujie Zhou, Kevin Law, Jack Chen, Domanic Lavery, Lidia Galdino, Polina Bayvel, Robert I. Killey

We present the first experimental demonstration of learned time-domain digital back-propagation (DBP), in 64-GBd dual-polarization 64-QAM signal transmission over 1014 km.