Analysis of Geometric Primitives in Quantitative Structure Models of Tree Stems

Analysis of Geometric Primitives in Quantitative Structure Models of Tree Stems

One way to model a tree is to use a collection of geometric primitives to represent the surface and topology of the stem and branches of a tree. The circular cylinder is often used as the geometric primitive, but it is not the only possible choice. We investigate various geometric primitives and mod...

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Veröffentlicht in:Remote sensing (Basel, Switzerland) Switzerland), 2015-04, Vol.7 (4), p.4581-4603
Hauptverfasser: Markku, Åkerblom, Raumonen, Pasi, Kaasalainen, Mikko, Casella, Eric
Format: Artikel
Sprache:eng
Schlagworte:
biomass estimation
Circular cylinders
Collection
Error analysis
Error detection
Lasers
Modelling
shape fitting
Stems
terrestrial laser scanning
Topology
tree modelling
Trees
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Zusammenfassung:One way to model a tree is to use a collection of geometric primitives to represent the surface and topology of the stem and branches of a tree. The circular cylinder is often used as the geometric primitive, but it is not the only possible choice. We investigate various geometric primitives and modelling schemes, discuss their properties and give practical estimates for expected modelling errors associated with the primitives. We find that the circular cylinder is the most robust primitive in the sense of a well-bounded volumetric modelling error, even with noise and gaps in the data. Its use does not cause errors significantly larger than those with more complex primitives, while the latter are much more sensitive to data quality. However, in some cases, a hybrid approach with more complex primitives for the stem is useful.
ISSN:2072-4292
2072-4292
DOI:10.3390/rs70404581