Light Distribution Models for Tree Growth Simulation

The simulation and modelling of tree growth is a complex subject with a long history and an important area of research in both computer graphics and botany. For more than 50 years, new approaches to this topic have been presented frequently, including several aspects to increase realism. To further...

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Published in	Computer graphics forum Vol. 44; no. 1
Main Authors	Nauber, Tristan, Mäder, Patrick
Format	Journal Article
Language	English
Published	Oxford Blackwell Publishing Ltd 01.02.2025
Subjects	biological modelling Botany Computer graphics Growth models Light distribution Light sources mesh generation Modelling Ray tracing Simulation Space colonies virtual environments
Online Access	Get full text
ISSN	0167-7055 1467-8659
DOI	10.1111/cgf.15268

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Abstract	The simulation and modelling of tree growth is a complex subject with a long history and an important area of research in both computer graphics and botany. For more than 50 years, new approaches to this topic have been presented frequently, including several aspects to increase realism. To further improve these achievements, we present a compact and robust functional‐structural plant model (FSPM) that is consistent with botanical rules. While we show several extensions to typical approaches, we focus mainly on the distribution of light as a resource in three‐dimensional space. We therefore present four different light distribution models based on ray tracing, space colonization, voxel‐based approaches and bounding volumes. By simulating individual light sources, we were able to create a more specified scene setup for plant simulation than it has been presented in the past. By taking into account such a more accurate distribution of light in the environment, this technique is capable of modelling realistic and diverse tree models. Simulation of tree growth using a combination of approximations to interpret light as a resource for plant metabolism.
AbstractList	The simulation and modelling of tree growth is a complex subject with a long history and an important area of research in both computer graphics and botany. For more than 50 years, new approaches to this topic have been presented frequently, including several aspects to increase realism. To further improve these achievements, we present a compact and robust functional‐structural plant model (FSPM) that is consistent with botanical rules. While we show several extensions to typical approaches, we focus mainly on the distribution of light as a resource in three‐dimensional space. We therefore present four different light distribution models based on ray tracing, space colonization, voxel‐based approaches and bounding volumes. By simulating individual light sources, we were able to create a more specified scene setup for plant simulation than it has been presented in the past. By taking into account such a more accurate distribution of light in the environment, this technique is capable of modelling realistic and diverse tree models. The simulation and modelling of tree growth is a complex subject with a long history and an important area of research in both computer graphics and botany. For more than 50 years, new approaches to this topic have been presented frequently, including several aspects to increase realism. To further improve these achievements, we present a compact and robust functional‐structural plant model (FSPM) that is consistent with botanical rules. While we show several extensions to typical approaches, we focus mainly on the distribution of light as a resource in three‐dimensional space. We therefore present four different light distribution models based on ray tracing, space colonization, voxel‐based approaches and bounding volumes. By simulating individual light sources, we were able to create a more specified scene setup for plant simulation than it has been presented in the past. By taking into account such a more accurate distribution of light in the environment, this technique is capable of modelling realistic and diverse tree models. Simulation of tree growth using a combination of approximations to interpret light as a resource for plant metabolism.
Author	Mäder, Patrick Nauber, Tristan
Author_xml	– sequence: 1 givenname: Tristan orcidid: 0000-0002-1717-5996 surname: Nauber fullname: Nauber, Tristan email: tristan.nauber@tu-ilmenau.de organization: Technische Universität Ilmenau, Data‐intensive Systems and Visualization Group – sequence: 2 givenname: Patrick orcidid: 0000-0001-6871-2707 surname: Mäder fullname: Mäder, Patrick email: patrick.maeder@tu-ilmenau.de organization: Friedrich Schiller University Jena
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Snippet	The simulation and modelling of tree growth is a complex subject with a long history and an important area of research in both computer graphics and botany....
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SubjectTerms	biological modelling Botany Computer graphics Growth models Light distribution Light sources mesh generation Modelling Ray tracing Simulation Space colonies virtual environments
Title	Light Distribution Models for Tree Growth Simulation
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