Lorenzo Tunesi scite author profile

Lorenzo Tunesi

5Publications

6Citation Statements Received

21Citation Statements Given

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Polytechnic University of Turin

Publications

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Automatic Management of N × N Photonic Switch Powered by Machine Learning in Software-Defined Optical Transport

Khan

Tunesi

Masood

et al. 2021

IEEE Open J. Commun. Soc.

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Optical networking is fast evolving towards the applications of the Software-defined Networking (SDN) paradigm down to the (Wavelength-division Multiplexing) WDM transport layer for cost-effective and flexible infrastructure management. Optical SDN requires each network element's software abstraction to enable full control by the centralized network controller. Nowadays, modern network elements, especially photonic switching systems, are developed by exploiting the fast-emerging technology of Photonic Integrated Circuit (PIC) that consists of complex fabrics of elementary units that can be driven individually using a large set of elementary controls. In this work, we focus on modeling the elementary control states of the topological structures behind PIC N×N switches under a fully blind approach based on Machine Learning (ML) techniques. The ML agent's training and testing datasets are obtained synthetically by software simulation of the photonic switch structure. The proposed technique's scalability and accuracy are validated by considering different dimensions N and applying it to two different switching topologies: the Honey-Comb Rearrangeable Optical Switch and the Beneš network. Excellent results in terms of prediction of the control states are achieved for both of the considered topologies.

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Network Performance of ROADM Architecture Enabled by Novel Wideband-integrated WSS

Masood

Khan

Tunesi

et al. 2022

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Performance evaluation of data-driven techniques for the softwarized and agnostic management of an N×N photonic switch

et al. 2022

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The emerging Software Defined Networking (SDN) paradigm paves the way for flexible and automatized management at each layer. The SDN-enabled optical network requires each network element’s software abstraction to enable complete control by the centralized network controller. Nowadays, silicon photonics due to its low energy consumption, low latency, and small footprint is a promising technology for implementing photonic switching topologies, enabling transparent lightpath routing in re-configurable add-drop multiplexers. To this aim, a model for the complete management of photonic switching systems’ control states is fundamental for network control. Typically, photonics-based switches are structured by exploiting the modern technology of Photonic Integrated Circuit (PIC) that enables complex elementary cell structures to be driven individually. Thus PIC switches’ control states are combinations of a large set of elementary controls, and their definition is a challenging task. In this scenario, we propose the use of several data-driven techniques based on Machine Learning (ML) to model the control states of a PIC N×N photonic switch in a completely blind manner. The proposed ML-based techniques are trained and tested in a completely topological and technological agnostic way, and we envision their application in a real-time control plane. The proposed techniques’ scalability and accuracy are validated by considering three different switching topologies: the Honey-Comb Rearrangeable Optical Switch (HCROS), Spanke-Beneš, and the Beneš network. Excellent results in terms of predicting the control states are achieved for all of the considered topologies.

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Machine Learning Aided Prediction of Fabrication Uncertainties in Integrated Multi-Ring Filters

Tunesi¹,

Khan²,

Masood³

et al. 2023

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Novel Design and Operation of Photonic- integrated WSS for Ultra-wideband Applications

Tunesi

Khan

Masood

et al. 2022

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Lorenzo Tunesi

Automatic Management of N × N Photonic Switch Powered by Machine Learning in Software-Defined Optical Transport

Network Performance of ROADM Architecture Enabled by Novel Wideband-integrated WSS

Performance evaluation of data-driven techniques for the softwarized and agnostic management of an N×N photonic switch

Machine Learning Aided Prediction of Fabrication Uncertainties in Integrated Multi-Ring Filters

Novel Design and Operation of Photonic- integrated WSS for Ultra-wideband Applications

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