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Digital speckle pattern interferometry (DSPI) with increased sensitivity: Use of spatial phase shifting
Date Issued
01-04-2007
Author(s)
Bhaduri, Basanta
Kothiyal, M. P.
Krishna Mohan, N.
Abstract
This paper presents a real-time digital speckle pattern interferometry system with twofold increase in sensitivity for the measurement of in-plane displacement and first order derivative of out-of-plane displacement (slope). Spatial phase shifting technique has been used for quantitative fringe analysis. The system employs a double aperture arrangement in front of the imaging system that introduces spatial carrier fringes within the speckle for spatial phase shifting. For in-plane displacement measurement, the scattered fields from the object are collected independently along the direction of illumination beams, and combined at the image plane. For slope measurement, a shear is introduced between the two scattered fields. Experimental results on an edge clamped circular plate subjected to in-plane rotation for in-plane displacement measurement and central loading for slope measurement are presented. © 2006 Elsevier B.V. All rights reserved.
Volume
272