基于非破坏性数字化和低参数形状演化的叶片生长重建，用于植物生长周期建模

IF 1.7 3区农林科学 Q2 FORESTRY

Silva Fennica Pub Date : 2014-01-01 DOI:10.14214/SF.1019

M. Henke, S. Huckemann, W. Kurth, B. Sloboda

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引用次数: 8

摘要

提出了一种简单而有效的光度计方法，涵盖了从野外数据采集到二值化的所有步骤，并允许叶片轮廓建模。该方法包括面积和大小的建模(与Chapman-Richards生长函数相关并建模，使用最后一个参数)，以及四个形状描述符，从中可以使用特定样条方法构建整个轮廓。作为对这种轮廓建模方法的改进，使用了一组参数化多项式。为了模拟形状的时间动力学，采用了形状空间中的测地线。最后，展示了如何将这种方法集成到3D建模平台GroIMP中。

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

Asimpleandefficientphotomet ricmethodologyispresented, �coveringallstepsfromfielddata � 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, usingfinallengthasoneparameter), �andfourshapedescriptors, �fromwhichtheentirecontour � canbereconstructedratherwellusingaspecificsplinemethodology . �Asanimprovementofthis � 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.

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来源期刊

Silva Fennica 农林科学-林学

CiteScore

3.50

自引率

11.10%

发文量

审稿时长

3 months

期刊介绍： Silva Fennica publishes significant new knowledge on forest sciences. The scope covers research on forestry and forest ecosystems. Silva Fennica aims to increase understanding on forest ecosystems, and sustainable use and conservation of forest resources. Use of forest resources includes all aspects of forestry containing biomass-based and non-timber products, economic and social factors etc.