L
Luca Poti
Researcher at Sant'Anna School of Advanced Studies
Publications - 403
Citations - 3913
Luca Poti is an academic researcher from Sant'Anna School of Advanced Studies. The author has contributed to research in topics: Optical amplifier & Optical switch. The author has an hindex of 28, co-authored 391 publications receiving 3621 citations. Previous affiliations of Luca Poti include Polytechnic University of Catalonia & Ericsson.
Papers
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Push-Pull Defragmentation Without Traffic Disruption in Flexible Grid Optical Networks
Filippo Cugini,Francesco Paolucci,Gianluca Meloni,Gianluca Berrettini,Marco Secondini,Francesco Fresi,Nicola Sambo,Luca Poti,Piero Castoldi +8 more
TL;DR: This study proposes, discusses and evaluates a novel defragmentation technique called push-pull, based on dynamic lightpath frequency retuning upon proper reconfiguration of allocated spectrum resources, which is successfully demonstrated in two different flexi-grid network testbeds.
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Ultrafast integrable and reconfigurable XNOR, AND, NOR, and NOT photonic logic gate
TL;DR: A novel, simple, compact, and integrable scheme of reconfigurable and ultrafast photonic logic gate is demonstrated, based on a single semiconductor optical amplifier (SOA) and able to process ultrafast signals.
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Next generation elastic optical networks: The vision of the European research project IDEALIST
Antonio Napoli,Marc Bohn,Danish Rafique,Alexandros Stavdas,Nicola Sambo,Luca Poti,Markus Nolle,Johannes Karl Fischer,Emilio Riccardi,A. Pagano,Andrea Di Giglio,Michela Svaluto Moreolo,Josep M. Fabrega,Emilio Hugues-Salas,Georgios Zervas,Dimitra Simeonidou,Patricia Layec,Antonio D'Errico,Talha Rahman,Juan Pedro Fernandez-Palacios Gimenez +19 more
TL;DR: This work details the strategies adopted in the European research project IDEALIST to overcome the predicted data plane capacity crunch in optical networks and highlights the novelties stemming from the flex-grid concept.
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Regenerative and reconfigurable all-optical logic gates for ultra-fast applications
TL;DR: In this paper, all-optical ultra-fast and reconfigurable logic gates have been implemented exploiting simple and low-cost schemes based on nonlinear optical loop mirrors, and their regenerative properties have been demonstrated.
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BER Degradation Detection and Failure Identification in Elastic Optical Networks
Alba P. Vela,Marc Ruiz,Francesco Fresi,Nicola Sambo,Filippo Cugini,Gianluca Meloni,Luca Poti,Luis Velasco,Piero Castoldi +8 more
TL;DR: In this paper, the authors analyze several failure causes affecting the quality of optical connections and propose two different algorithms: one focused on detecting significant bit error rate (BER) changes in optical connections, named as BANDO, and the other focused on identifying the most probable failure pattern, called LUCIDA.