Haowen Zhou scite author profile

The performance of direct and unwrapped phase retrieval, which combines digital holography with the transport of intensity, is examined in detail in this paper. In this technique, digital holography is used to numerically reconstruct the intensities at different planes around the image plane, and phase retrieval is achieved by the transport of intensity. Digital holography with transport of intensity is examined for inline and off-axis geometries. The effect of twin images in the inline case is evaluated. Phase-shifting digital holography with transport of intensity is introduced. The performance of digital holography with transport of intensity is compared with traditional off-axis single- and dual-wavelength techniques, which employ standard phase unwrapping algorithms. Simulations and experiments are performed to determine and compare the accuracy of phase retrieval through a mean-squared-error figure of merit as well as the computational speeds of the various methods.

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Reduced kernel recursive least squares algorithm for aero-engine degradation prediction

Zhou

Huang

Lü

2017

Mechanical Systems and Signal Processing

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Echo state kernel recursive least squares algorithm for machine condition prediction

Zhou

Huang

Lü

et al. 2018

Mechanical Systems and Signal Processing

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Non-recursive transport of intensity phase retrieval with the transport of phase

2021

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The transport of intensity equation (TIE) is a non-interferometric phase retrieval method that originates from the imaginary part of the Helmholtz equation and is equivalent to the law of conservation of energy. From the real part of the Helmholtz equation, the transport of phase equation (TPE), which represents the Eikonal equation in the presence of diffraction, can be derived. The amplitude and phase for an arbitrary optical field should satisfy these coupled equations simultaneously during propagation. In this work, the coupling between the TIE and TPE is exploited to improve the phase retrieval solutions from the TIE. Specifically, a non-recursive fast Fourier transform (FFT)-based phase retrieval method using both the TIE and TPE is demonstrated. Based on the FFT-based TIE solution, a correction factor calculated by the TPE is introduced to improve the phase retrieval results.

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Haowen Zhou

A review of the dual-wavelength technique for phase imaging and 3D topography

Performance analysis of phase retrieval using transport of intensity with digital holography [Invited]

Reduced kernel recursive least squares algorithm for aero-engine degradation prediction

Echo state kernel recursive least squares algorithm for machine condition prediction

Non-recursive transport of intensity phase retrieval with the transport of phase

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