Normal vector based dynamic laser speckle analysis for plant water status monitoring

The analysis of dynamic laser speckle is widely known as an effective non-contact technique for detecting micro-activity on a sample surface. However, the analysis obtained using conventional statistical methods is heavily influenced by the properties of the sample, laser beam and ambient lighting....

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Veröffentlicht in:	Optics communications 2014-02, Vol.313, p.256-262
Hauptverfasser:	Zhong, Xu, Wang, Xuezhi, Cooley, Nicola, Farrell, Peter M., Foletta, Sally, Moran, Bill
Format:	Artikel
Sprache:	eng
Schlagworte:	Dynamic laser speckle analysis Dynamic tests Dynamics Illumination Lasers Leaf activity detection Leaf water status Lighting Local normal vector Mathematical analysis Statistical methods Vectors (mathematics)
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creator	Zhong, Xu Wang, Xuezhi Cooley, Nicola Farrell, Peter M. Foletta, Sally Moran, Bill
description	The analysis of dynamic laser speckle is widely known as an effective non-contact technique for detecting micro-activity on a sample surface. However, the analysis obtained using conventional statistical methods is heavily influenced by the properties of the sample, laser beam and ambient lighting. Recently, we proposed a new normal vector based dynamic speckle analysis method and demonstrated its ability to remove interference due to non-uniform reflectivity, illumination, and time-varying ambient lighting. In this paper, the normal vector based statistical technique for dynamic speckle analysis is further justified by the application to leaf surface micro-motion detection for monitoring plant water status. We carried out experiments for surface activity detection of attached leaves to monitor variation of leaf water status. The presented results highlight the advantage of the normal vector based analysis over image intensity based methods and demonstrate the potential of measuring plant water status via dynamic laser speckle analysis.
doi_str_mv	10.1016/j.optcom.2013.10.052
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subjects	Dynamic laser speckle analysis Dynamic tests Dynamics Illumination Lasers Leaf activity detection Leaf water status Lighting Local normal vector Mathematical analysis Statistical methods Vectors (mathematics)
title	Normal vector based dynamic laser speckle analysis for plant water status monitoring
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