Wei Xiang scite author profile

Phase unwrapping plays an important role in optical phase measurements. In particular, phase unwrapping under heavy noise conditions remains an open issue. In this paper, a deep learning-based method is proposed to conduct the phase unwrapping task by combining Zernike polynomial fitting and a Swin-Transformer network. In this proposed method, phase unwrapping is regarded as a regression problem, and the Swin-Transformer network is used to map the relationship between the wrapped phase data and the Zernike polynomial coefficients. Because of the self-attention mechanism of the transformer network, the fitting coefficients can be estimated accurately even under extremely harsh noise conditions. Simulation and experimental results are presented to demonstrate the outperformance of the proposed method over the other two polynomial fitting-based methods. This is a promising phase unwrapping method in optical metrology, especially in electronic speckle pattern interferometry.

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Fast Subentire-Domain Basis Functions Method for Analysis of Composite Finite Periodic Structures With Dielectric-Conductor Cells

Xiang

Yang

2023

Antennas Wirel. Propag. Lett.

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Wideband Solution of Electrically Connected Finite Periodic Arrays Using Modified Accurate Subentire-Domain Basis Function Method and Improved Frequency-Independent Reaction

Zheng

et al. 2021

Antennas Wirel. Propag. Lett.

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A Comparison of MB-CBFM and Modified ASED Basis Function Method to Analyze Interconnected Finite Periodic Arrays

Xiang

Zhu

2022

Antennas Wirel. Propag. Lett.

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Wei Xiang

New Accurate Subentire-Domain Basis Functions Method for the Analysis of Large-Scale Finite Periodic Structures with Electrically Connected Cells

Robust phase unwrapping algorithm based on Zernike polynomial fitting and Swin-Transformer network

Fast Subentire-Domain Basis Functions Method for Analysis of Composite Finite Periodic Structures With Dielectric-Conductor Cells

Wideband Solution of Electrically Connected Finite Periodic Arrays Using Modified Accurate Subentire-Domain Basis Function Method and Improved Frequency-Independent Reaction

A Comparison of MB-CBFM and Modified ASED Basis Function Method to Analyze Interconnected Finite Periodic Arrays

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