Single and Multicomponent Digital Optical Signal Analysis

Estimation of phase and its derivatives

Nonfiction, Science & Nature, Science, Physics, Optics
Cover of the book Single and Multicomponent Digital Optical Signal Analysis by Pramod Rastogi, Rishikesh Kulkarni, Institute of Physics Publishing
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Author: Pramod Rastogi, Rishikesh Kulkarni ISBN: 9780750314695
Publisher: Institute of Physics Publishing Publication: September 6, 2017
Imprint: Institute of Physics Publishing Language: English
Author: Pramod Rastogi, Rishikesh Kulkarni
ISBN: 9780750314695
Publisher: Institute of Physics Publishing
Publication: September 6, 2017
Imprint: Institute of Physics Publishing
Language: English

Optical techniques such as electronic speckle pattern interferometry, holographic interferometry, and fringe projection have emerged as the prominent tools for non-contact measurements, with applications ranging from biology to materials science. In these processes, information about the measured physical quantity is stored in the phase or associated derivatives of an interference fringe pattern. Consequently, a reliable estimation of phase and its derivatives, commonly referred to as fringe analysis becomes a primary requirement for the application and interpretation of these optical techniques. Here, leading researchers in fringe analysis methods present a review of the tools and methods of multicomponent fringe analysis and interferometric data, and outline a wide range of digital signal-processing-based interferometric data-processing techniques.

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Optical techniques such as electronic speckle pattern interferometry, holographic interferometry, and fringe projection have emerged as the prominent tools for non-contact measurements, with applications ranging from biology to materials science. In these processes, information about the measured physical quantity is stored in the phase or associated derivatives of an interference fringe pattern. Consequently, a reliable estimation of phase and its derivatives, commonly referred to as fringe analysis becomes a primary requirement for the application and interpretation of these optical techniques. Here, leading researchers in fringe analysis methods present a review of the tools and methods of multicomponent fringe analysis and interferometric data, and outline a wide range of digital signal-processing-based interferometric data-processing techniques.

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