Data-based stochastic modeling of tree growth and structure formation

Ilya Potapov; Marko Järvenpää; Markku Åkerblom; Pasi Raumonen; Mikko Kaasalainen

doi:10.14214/sf.1413

Data-based stochastic modeling of tree growth and structure formation

Ilya Potapov, Marko Järvenpää, Markku Åkerblom, Pasi Raumonen, Mikko Kaasalainen

Research output: Contribution to journal › Article › Scientific › peer-review

10 Citations (Scopus)

Abstract

We introduce a general procedure to match a stochastic functional-structural tree model (here LIGNUM augmented with stochastic rules) with real tree structures depicted by quantitative structure models (QSMs) based on terrestrial laser scanning. The matching is done by iteratively finding the maximum correspondence between the measured tree structure and the stochastic choices of the algorithm. First, we analyze the match to synthetic data (generated by the model itself), where the target values of the parameters to be estimated are known in advance, and show that the algorithm converges properly. We then carry out the procedure on real data obtaining a realistic model. We thus conclude that the proposed stochastic structure model (SSM) approach is a viable solution for formulating realistic plant models based on data and accounting for the stochastic influences.

Original language	English
Article number	1413
Journal	Silva Fennica
Volume	50
Issue number	1
Early online date	3 Nov 2015
DOIs	https://doi.org/10.14214/sf.1413
Publication status	Published - 2016
Publication type	A1 Journal article-refereed

Keywords

Data fitting
Form diversity
Morphological plasticity
Plant model
Quantitative structure models
Stochastic functional-structural
Terrestrial lidar

Publication forum classification

Publication forum level 1

ASJC Scopus subject areas

Ecological Modelling
Forestry

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.14214/sf.1413

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title = "Data-based stochastic modeling of tree growth and structure formation",

abstract = "We introduce a general procedure to match a stochastic functional-structural tree model (here LIGNUM augmented with stochastic rules) with real tree structures depicted by quantitative structure models (QSMs) based on terrestrial laser scanning. The matching is done by iteratively finding the maximum correspondence between the measured tree structure and the stochastic choices of the algorithm. First, we analyze the match to synthetic data (generated by the model itself), where the target values of the parameters to be estimated are known in advance, and show that the algorithm converges properly. We then carry out the procedure on real data obtaining a realistic model. We thus conclude that the proposed stochastic structure model (SSM) approach is a viable solution for formulating realistic plant models based on data and accounting for the stochastic influences.",

keywords = "Data fitting, Form diversity, Morphological plasticity, Plant model, Quantitative structure models, Stochastic functional-structural, Terrestrial lidar",

author = "Ilya Potapov and Marko J{\"a}rvenp{\"a}{\"a} and Markku {\AA}kerblom and Pasi Raumonen and Mikko Kaasalainen",

year = "2016",

doi = "10.14214/sf.1413",

language = "English",

volume = "50",

journal = "Silva Fennica",

issn = "0037-5330",

publisher = "Finnish Society of Forest Science",

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T1 - Data-based stochastic modeling of tree growth and structure formation

AU - Potapov, Ilya

AU - Järvenpää, Marko

AU - Åkerblom, Markku

AU - Raumonen, Pasi

AU - Kaasalainen, Mikko

PY - 2016

Y1 - 2016

N2 - We introduce a general procedure to match a stochastic functional-structural tree model (here LIGNUM augmented with stochastic rules) with real tree structures depicted by quantitative structure models (QSMs) based on terrestrial laser scanning. The matching is done by iteratively finding the maximum correspondence between the measured tree structure and the stochastic choices of the algorithm. First, we analyze the match to synthetic data (generated by the model itself), where the target values of the parameters to be estimated are known in advance, and show that the algorithm converges properly. We then carry out the procedure on real data obtaining a realistic model. We thus conclude that the proposed stochastic structure model (SSM) approach is a viable solution for formulating realistic plant models based on data and accounting for the stochastic influences.

AB - We introduce a general procedure to match a stochastic functional-structural tree model (here LIGNUM augmented with stochastic rules) with real tree structures depicted by quantitative structure models (QSMs) based on terrestrial laser scanning. The matching is done by iteratively finding the maximum correspondence between the measured tree structure and the stochastic choices of the algorithm. First, we analyze the match to synthetic data (generated by the model itself), where the target values of the parameters to be estimated are known in advance, and show that the algorithm converges properly. We then carry out the procedure on real data obtaining a realistic model. We thus conclude that the proposed stochastic structure model (SSM) approach is a viable solution for formulating realistic plant models based on data and accounting for the stochastic influences.

KW - Data fitting

KW - Form diversity

KW - Morphological plasticity

KW - Plant model

KW - Quantitative structure models

KW - Stochastic functional-structural

KW - Terrestrial lidar

U2 - 10.14214/sf.1413

DO - 10.14214/sf.1413

M3 - Article

AN - SCOPUS:84983200698

SN - 0037-5330

VL - 50

JO - Silva Fennica

JF - Silva Fennica

IS - 1

M1 - 1413

ER -

Data-based stochastic modeling of tree growth and structure formation

Abstract

Keywords

Publication forum classification

ASJC Scopus subject areas

UN SDGs

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