Model-based processing of a holographic moiré

Model-based processing of a holographic moiré

A state space model for the determination of dual phase distributions in a holographic moiré in the presence of nonsinusoidal waveforms, random noise, and miscalibration of the piezoelectric (PZT) devices is proposed. The extraction of these phase terms requires incorporating two PZTs into the moiré...

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Veröffentlicht in:Optics letters 2005-11, Vol.30 (21), p.2870-2872
Hauptverfasser: PATIL, Abhijit, LANGOJU, Rajesh, RASTOGI, Pramod
Format: Artikel
Sprache:eng
Schlagworte:
Exact sciences and technology
Fundamental areas of phenomenology (including applications)
Holographic interferometry
other holographic techniques
Holography
Measurements common to several branches of physics and astronomy
Metrology, measurements and laboratory procedures
Optical testing techniques
Optics
Physics
Spatial dimensions (e.g.: position, lengths, volume, angles, displacements, including nanometer-scale displacements)
Spatial dimensions (eg, position, lengths, volume, angles, displacements, including nanometer-scale displacements)
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Zusammenfassung:A state space model for the determination of dual phase distributions in a holographic moiré in the presence of nonsinusoidal waveforms, random noise, and miscalibration of the piezoelectric (PZT) devices is proposed. The extraction of these phase terms requires incorporating two PZTs into the moiré setup. A Toeplitz approximation method (TAM) is applied for phase determination, and modification to the Toeplitz covariance matrix formed from the phase-shifted moiré fringes by application of a denoising step in the state-feedback matrix is proposed. This step ensures that the phase terms can even be estimated at a signal-to-noise ratio much lower than that of the original TAM or by our previously suggested polynomial based method.
ISSN:0146-9592
1539-4794
DOI:10.1364/OL.30.002870