A New Pattern Quality Assessment Criterion and Defocusing Degree Determination of Laser Speckle Correlation Method

A New Pattern Quality Assessment Criterion and Defocusing Degree Determination of Laser Speckle Correlation Method

The laser speckle correlation method has found widespread application for obtaining information from vibrating objects. However, the resolution and accuracy of the laser speckle correlation method as they relate to the defocusing degree have not been analyzed sufficiently. Furthermore, the possible...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Vol. 21; no. 14; p. 4728
Main Authors: Hu, Wenxin, Sheng, Zhipeng, Yan, Keyu, Miao, Hong, Fu, Yu
Format: Journal Article
Language:English
Published: Basel MDPI AG 10-07-2021
MDPI
Subjects:
Accuracy
Cameras
Criteria
Defocusing
defocusing degree
Frequency spectrum
High temperature
Interferometry
laser speckle correlation
Lasers
Methods
Morphology
Quality assessment
rotation measurement
Sensors
speckle pattern quality criterion
Speckle patterns
Standard deviation
Vibration
vibration measurement
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Summary:The laser speckle correlation method has found widespread application for obtaining information from vibrating objects. However, the resolution and accuracy of the laser speckle correlation method as they relate to the defocusing degree have not been analyzed sufficiently. Furthermore, the possible methods for speckle pattern quality assessment and enhancement have not been studied. In this study, the resolution and accuracy of the laser speckle correlation method are analyzed, and it is found that they are affected by the defocusing degree and speckle pattern quality, respectively. A new speckle pattern quality criterion combining the mean intensity gradient and frequency spectrum was proposed, called CMZ. The quality of the speckle pattern is higher when the CMZ is closer to zero. The proposed criterion was verified by simulated speckle patterns and real speckle patterns with different speckle sizes, densities, and gray contrasts. In the experimental setup stage, a suitable defocusing degree can be selected based on the resolution requirement and optimal speckle size, and other experimental parameters can be determined according to the CMZ criterion. Rotation and vibration experiments verified the effectiveness of the laser speckle correlation method and confirmed the reliability of the experiment preparation based on proposed CMZ criterion.
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ISSN:1424-8220
1424-8220
DOI:10.3390/s21144728