Realistic modeling 3D architecture of tomato plant under environmental forces and system implementation

Crops play the most important role in the natural scenery of landscape. The changing of crop shapes under different environmental factors is common scenery in the nature. Due to the complexity of the structure of crops and the varying properties of crops' components, realistic simulation of cro...

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Hauptverfasser:	Ding Wei-long, Jin Hu-jun, Xu Zhi-fu
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Agriculture Algorithm design and analysis Biological system modeling environmental forces Force Morphology parametric L-system realistic modeling Tomato Topology Visualization
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creator	Ding Wei-long Jin Hu-jun Xu Zhi-fu
description	Crops play the most important role in the natural scenery of landscape. The changing of crop shapes under different environmental factors is common scenery in the nature. Due to the complexity of the structure of crops and the varying properties of crops' components, realistic simulation of crops' motion becomes extremely a difficult task. As an effort in tackling such a problem, a new algorithm combining the environmental forces and parametric L-system, has been proposed and implemented in the paper. By using this algorithm, the changing of tomato shapes under different environmental factors is achieved. The key techniques in the algorithm designing and system implementation are introduced, and some typical effect pictures are given.
doi_str_mv	10.1109/ICAE.2011.5943789
format	Conference Proceeding
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Agriculture Algorithm design and analysis Biological system modeling environmental forces Force Morphology parametric L-system realistic modeling Tomato Topology Visualization
title	Realistic modeling 3D architecture of tomato plant under environmental forces and system implementation
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