Spectral–temporal channeled spectropolarimetry using deep-learning-based adaptive filtering

Qiwei Li; Qiwei Li; Qiwei Li; Jiawei Song; Andrey S. Alenin; J. Scott Tyo

doi:10.1364/OL.436031

Optics Letters
Vol. 46,
Issue 17,
pp. 4394-4397
(2021)
•https://doi.org/10.1364/OL.436031

Spectral–temporal channeled spectropolarimetry using deep-learning-based adaptive filtering

Qiwei Li, Jiawei Song, Andrey S. Alenin, and J. Scott Tyo

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Qiwei Li, Jiawei Song, Andrey S. Alenin, and J. Scott Tyo, "Spectral–temporal channeled spectropolarimetry using deep-learning-based adaptive filtering," Opt. Lett. 46, 4394-4397 (2021)

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Abstract

Channeled spectropolarimetry (CSP) employing low-pass channel extraction filters suffers from cross talk and spectral resolution loss. These are aggravated by empirically defining the shape and scope of the filters for different measured. Here, we propose a convolutional deep-neural-network-based channel filtering framework for spectrally–temporally modulated CSP. The network is trained to adaptively predict spectral magnitude filters (SMFs) that possess wide bandwidths and anti-cross-talk features that adapt to scene data in the two-dimensional Fourier domain. Mixed filters that combine the advantages of low-pass filters and SMFs demonstrate superior performance in reconstruction accuracy.

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Supplementary Material (3)

Name	Description
Supplement 1	Supplement 1.
Visualization 1	This video contains the simulated Stokes spectra with a relatively low spectral bandwidth.
Visualization 2	This video contains the simulated Stokes spectra with a relatively high spectral bandwidth.

Data Availability

Data presented in this paper are not publicly available at this time but may be obtained from the authors upon reasonable request.

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Abstract

Supplementary Material (3)

Data Availability

Cited By

Figures (4)

Tables (1)

Equations (8)

Optics Letters