Fusing Physics to Fiber Nonlinearity Model for Optical Networks Based on Physics-Guided Neural Networks | PERPUSTAKAAN UNIVERSITAS KATOLIK PARAHYANGAN

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Fusing Physics to Fiber Nonlinearity Model for Optical Networks Based on Physics-Guided Neural Networks

Liu, Xiaomin - Nama Orang; Zhuge, Qunbi - Nama Orang; Liu, Lei - Nama Orang; Yi, Lilin - Nama Orang; Hu, Weisheng - Nama Orang; Cai, Meng - Nama Orang; Zhang, Yihao - Nama Orang; Fan, Yunyun - Nama Orang;

Machine learning (ML) has been widely used for physical layer modeling in optical networks for its high accuracy and efficient calculation structure. However, traditional ML-based methods purely rely on the available data rather than physical laws, resulting in relatively low reliability and generalizability. To further improve the modeling performance and speed up the deployment of ML-based models in real systems, one possible solution is to combine ML-based methods and physical knowledge so that the accuracy and reliability of the model can be both improved. In this paper, we propose a fiber model based on the physics-guided neural networks (PGNN). First, the rough estimation of an analytical model is integrated into the input feature of a ML-based model as calibration to reduce the learning burden of ML engines. In addition, the known physical law is manually exploited and designed as a physical regularization based on a semi-supervised learning structure to improve physical consistency. To demonstrate the performance improvement in accuracy, physical consistency, and generalizability, a simulation validation under different link and signal configurations is conducted. Moreover, the PGNN-based model is compared with traditional neural networks in an experimental link to further illustrate its superior accuracy and generalizability.

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Barcode		Tipe Koleksi	Nomor Panggil	Lokasi	Status
art145412	null	Artikel		Gdg9-Lt3	Tersedia namun tidak untuk dipinjamkan - No Loan

Informasi Detail

Judul Seri: JOURNAL OF LIGHTWAVE TECHNOLOGY; Vol.40 No.17 September 1 2022
No. Panggil: -
Penerbit: : .,
Deskripsi Fisik: p. 5793-5802
Bahasa: English
ISBN/ISSN: -
Klasifikasi: NONE
Tipe Isi: -
Tipe Media: -
Tipe Pembawa: -
Edisi: -
Subjek: NEURAL NETWORKS
FIBER NONLINEARITY
OPTICAL NETWORK MODELING
PHYSICS-GUIDED NEURAL NETWORKS
Info Detail Spesifik: DOI: 10.1109/JLT.2022.3182989
Pernyataan Tanggungjawab: Xiaomin Liu, Yunyun Fan, Yihao Zhang, Meng Cai, Lei Liu, Lilin Yi, Weisheng Hu, Qunbi Zhuge

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