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Multi-Failure Localization in High-Degree ROADM-Based Optical Networks Using Rules-Informed Neural Networks

Ruikun Wang, Qiaolun Zhang, Jiawei Zhang, Zhiqun Gu, Mëmëdhe Ibrahimi, Hao Yu, Bojun Zhang, Francesco Musumeci, Yuefeng Ji, Massimo Tornatore

2025IEEE Journal on Selected Areas in Communications22 citationsDOIOpen Access PDF

Abstract

To accommodate ever-growing traffic, network operators are actively deploying high-degree reconfigurable optical add/drop multiplexers (ROADMs) to build large-capacity optical networks. High-degree ROADM-based optical networks have multiple parallel fibers between ROADM nodes, requiring the adoption of ROADM nodes with a large number of inter-/intra-node components. However, this large number of inter-/intra-node optical components in high-degree ROADM networks increases the likelihood of multiple failures simultaneously, and calls for novel methods for accurate localization of multiple failed components. To the best of our knowledge, this is the first study investigating the problem of multi-failure localization for high-degree ROADM-based optical networks. To solve this problem, we first provide a description of the failures affecting both inter-/intra-node components, and we consider different deployments of optical power monitors (OPMs) to obtain information (i.e., optical power) to be used for automated multi-failure localization. Then, as our main and original contribution, we propose a novel method based on a rules-informed neural network (RINN) for multi-failure localization, which incorporates the benefits of both rules-based reasoning and artificial neural networks (ANN). Through extensive simulations and experimental demonstrations, we show that our proposed RINN algorithm can achieve up to around 20% higher localization accuracy compared to baseline algorithms, incurring only around 4.14 ms of average inference time.

Topics & Concepts

Computer scienceArtificial neural networkDegree (music)Artificial intelligenceComputer networkDistributed computingAcousticsPhysicsAdvanced Photonic Communication SystemsOptical Network TechnologiesAdvanced Optical Network Technologies