Deep-learning-assisted linearization for the broadband photonic scanning channelized receiver.

Liyuan Zhao Wenyou Gou Zhuohang Zhang Meili Shen Jianghua Zhang Xin Zheng Yuanxi Peng Tian Jiang

Opt Lett

Published: November 2022

* Experiments show that the AE-Res network enhances the third-order spur-free dynamic range (SFDR) by 17.44 dB.
* It also significantly improves the spurious suppression ratio (SSR) by 39.69 dB and lowers the noise floor by about 10 dB for real wireless communication signals.

An autoencoder-residual (AE-Res) network is designated to assist the linearization of the wideband photonic scanning channelized receiver. It is capable of adaptively suppressing spurious distortions over multiple octaves of signal bandwidth, obviating the need for calculating the multifactorial nonlinear transfer functions. Proof-of-concept experiments indicate that the improvement of the third-order spur-free dynamic range (SFDR) is 17.44 dB. Moreover, the results for real wireless communication signals demonstrate that the improvement of the spurious suppression ratio (SSR) is 39.69 dB and the reduction of the noise floor is ∼10 dB.

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http://dx.doi.org/10.1364/OL.474775	DOI Listing

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