Reconstructing leaf growth based on non-destructive digitizing and low-parametric shape evolution for plant modelling over a growth cycle

Reconstructing leaf growth based on non-destructive digitizing and low-parametric shape evolution for plant modelling over a growth cycle

A simple and efficient photometric methodology is presented, covering all steps from field data acquisition to binarization and allowing for leaf contour modelling. This method comprises the modelling of area and size (correlated and modelled with a Chapman-Richards growth function, using...

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Main Authors: Henke, Michael, Huckemann, Stephan, Kurth, Winfried, Sloboda, Branislav
Format: Article
Language:English
Published: Finnish Society of Forest Science 2014-01-01
Series:Silva Fennica
Online Access:https://www.silvafennica.fi/article/1019
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spelling doaj-b8334fc0db304a85a2c40fde5764ca3e2020-11-25T02:27:49ZengFinnish Society of Forest ScienceSilva Fennica2242-40752014-01-0148210.14214/sf.1019Reconstructing leaf growth based on non-destructive digitizing and low-parametric shape evolution for plant modelling over a growth cycleHenke, MichaelHuckemann, StephanKurth, WinfriedSloboda, Branislav A simple and efficient photometric methodology is presented, covering all steps from field data acquisition to binarization and allowing for leaf contour modelling. This method comprises the modelling of area and size (correlated and modelled with a Chapman-Richards growth function, using final length as one parameter), and four shape descriptors, from which the entire contour can be reconstructed rather well using a specific spline methodology. As an improvement of this contour modelling method, a set of parameterized polynomials was used. To model the temporal kinetics of the shape, geodesics in shape spaces were employed. Finally it is shown how this methodology is integrated into the 3D modelling platform GroIMP.https://www.silvafennica.fi/article/1019
collection DOAJ
language English
format Article
sources DOAJ
author Henke, Michael
Huckemann, Stephan
Kurth, Winfried
Sloboda, Branislav
spellingShingle Henke, Michael
Huckemann, Stephan
Kurth, Winfried
Sloboda, Branislav
Reconstructing leaf growth based on non-destructive digitizing and low-parametric shape evolution for plant modelling over a growth cycle
Silva Fennica
author_facet Henke, Michael
Huckemann, Stephan
Kurth, Winfried
Sloboda, Branislav
author_sort Henke, Michael
title Reconstructing leaf growth based on non-destructive digitizing and low-parametric shape evolution for plant modelling over a growth cycle
title_short Reconstructing leaf growth based on non-destructive digitizing and low-parametric shape evolution for plant modelling over a growth cycle
title_full Reconstructing leaf growth based on non-destructive digitizing and low-parametric shape evolution for plant modelling over a growth cycle
title_fullStr Reconstructing leaf growth based on non-destructive digitizing and low-parametric shape evolution for plant modelling over a growth cycle
title_full_unstemmed Reconstructing leaf growth based on non-destructive digitizing and low-parametric shape evolution for plant modelling over a growth cycle
title_sort reconstructing leaf growth based on non-destructive digitizing and low-parametric shape evolution for plant modelling over a growth cycle
publisher Finnish Society of Forest Science
series Silva Fennica
issn 2242-4075
publishDate 2014-01-01
description A simple and efficient photometric methodology is presented, covering all steps from field data acquisition to binarization and allowing for leaf contour modelling. This method comprises the modelling of area and size (correlated and modelled with a Chapman-Richards growth function, using final length as one parameter), and four shape descriptors, from which the entire contour can be reconstructed rather well using a specific spline methodology. As an improvement of this contour modelling method, a set of parameterized polynomials was used. To model the temporal kinetics of the shape, geodesics in shape spaces were employed. Finally it is shown how this methodology is integrated into the 3D modelling platform GroIMP.
url https://www.silvafennica.fi/article/1019
work_keys_str_mv AT henkemichael reconstructingleafgrowthbasedonnondestructivedigitizingandlowparametricshapeevolutionforplantmodellingoveragrowthcycle
AT huckemannstephan reconstructingleafgrowthbasedonnondestructivedigitizingandlowparametricshapeevolutionforplantmodellingoveragrowthcycle
AT kurthwinfried reconstructingleafgrowthbasedonnondestructivedigitizingandlowparametricshapeevolutionforplantmodellingoveragrowthcycle
AT slobodabranislav reconstructingleafgrowthbasedonnondestructivedigitizingandlowparametricshapeevolutionforplantmodellingoveragrowthcycle
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