?url_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rft.title=Throughput+Maximisation+in+Ultra-wideband+Hybrid-amplified+Links&rft.creator=Buglia%2C+H&rft.creator=Sillekens%2C+E&rft.creator=Galdino%2C+L&rft.creator=Killey%2C+R&rft.creator=Bayvel%2C+P&rft.description=A+semi-analytical%2C+real-time+nonlinear-interference+model+including+ASE+noise+in+hybrid-amplified+links+is+introduced.+Combined+with+particle-swarm+optimisation%2C+the+capacity+of+a+hybrid-amplified+10.5-THz+117x57-km+link+was+maximised%2C+increasing+throughput+by+12%25+versus+an+EDFAs-only+configuration.&rft.subject=Noise%2C+Predictive+models%2C+Erbium-doped+fiber+amplifiers%2C+Throughput%2C+Prediction+algorithms%2C+Real-time+systems%2C+Optical+fiber+communication&rft.publisher=IEEE&rft.date=2024-05-16&rft.type=Proceedings+paper&rft.language=eng&rft.source=+++++In%3A++Proceedings+of+the+2024+Optical+Fiber+Communications+Conference+and+Exhibition+(OFC).++++IEEE%3A+San+Diego%2C+CA%2C+USA.+(2024)+++++&rft.format=text&rft.identifier=https%3A%2F%2Fdiscovery.ucl.ac.uk%2Fid%2Feprint%2F10193329%2F1%2FOFC2024_Henrique%2520%25285%2529.pdf&rft.identifier=https%3A%2F%2Fdiscovery.ucl.ac.uk%2Fid%2Feprint%2F10193329%2F&rft.rights=open