Reinforced Q-Learning Enabled Automatic Blind Working Wavelength Alignment Against Wide Input-Wavelength Shifts and Temperature Variations for Silicon Photonic Vernier Ring Filters

Guangwei Cong; Ryotaro Konoike; Keijiro Suzuki; Noritsugu Yamamoto; Rai Kou; Yuriko Maegami; Morifumi Ohno; Kazuhiro Ikeda; Shu Namiki; Koji Yamada

doi:10.1364/OFC.2024.Th1A.4

Optical Fiber Communication Conference (OFC) 2024
Technical Digest Series (Optica Publishing Group, 2024),
paper Th1A.4
•https://doi.org/10.1364/OFC.2024.Th1A.4

Reinforced Q-Learning Enabled Automatic Blind Working Wavelength Alignment Against Wide Input-Wavelength Shifts and Temperature Variations for Silicon Photonic Vernier Ring Filters

Guangwei Cong, Ryotaro Konoike, Keijiro Suzuki, Noritsugu Yamamoto, Rai Kou, Yuriko Maegami, Morifumi Ohno, Kazuhiro Ikeda, Shu Namiki, and Koji Yamada

Optical Fiber Communication Conference 2024

San Diego California United States
24–28 March 2024
ISBN: 978-1-957171-32-6

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Programmable Circuits/Switches and Control Technologies (Th1A)

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G. Cong, R. Konoike, K. Suzuki, N. Yamamoto, R. Kou, Y. Maegami, M. Ohno, K. Ikeda, S. Namiki, and K. Yamada, "Reinforced Q-Learning Enabled Automatic Blind Working Wavelength Alignment Against Wide Input-Wavelength Shifts and Temperature Variations for Silicon Photonic Vernier Ring Filters," in Optical Fiber Communication Conference (OFC) 2024, Technical Digest Series (Optica Publishing Group, 2024), paper Th1A.4.

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Abstract

We experimentally demonstrate long-time (~10 hours) continuous full-C-band automatic working wavelength alignment for silicon photonic cascaded-ring vernier filters against wide input-wavelength and temperature changes using reinforced Q-learning method, without pre-building look-up table and temperature monitor.

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