Predicting forest age classes from high spatial resolution remotely sensed imagery using Voronoi polygon aggregation

Trisalyn Nelson; Barry Boots; Mike Wulder; Rob Feick

doi:10.1023/B:GEIN.0000017745.92969.31

Predicting forest age classes from high spatial resolution remotely sensed imagery using Voronoi polygon aggregation

Trisalyn Nelson, Barry Boots, Mike Wulder, Rob Feick

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

11 Scopus citations

Abstract

Efficient identification of forest age is useful for forest management and ecological applications. Here we propose a user-assisted method for determining forest age using high spatial resolution remotely sensed imagery. This method requires individual trees to be extracted from imagery and represented as points. We use a local maximum filter to generate points that are converted to Voronoi polygons. Properties of the Voronoi polygons are correlated with forest age and used to aggregate points (trees) into areas (stands) based on three forest age classes. Accuracy of the aggregation ranges from approximately 68% to 78% and identification of the mature class is more consistent and accurate than the younger classes.

Original language	English (US)
Pages (from-to)	143-155
Number of pages	13
Journal	GeoInformatica
Volume	8
Issue number	2
DOIs	https://doi.org/10.1023/B:GEIN.0000017745.92969.31
State	Published - Jun 2004
Externally published	Yes

Keywords

Forest age
Point patterns
Spatial analysis
Voronoi polygon

ASJC Scopus subject areas

Geography, Planning and Development
Information Systems

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10.1023/B:GEIN.0000017745.92969.31

Cite this

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title = "Predicting forest age classes from high spatial resolution remotely sensed imagery using Voronoi polygon aggregation",

abstract = "Efficient identification of forest age is useful for forest management and ecological applications. Here we propose a user-assisted method for determining forest age using high spatial resolution remotely sensed imagery. This method requires individual trees to be extracted from imagery and represented as points. We use a local maximum filter to generate points that are converted to Voronoi polygons. Properties of the Voronoi polygons are correlated with forest age and used to aggregate points (trees) into areas (stands) based on three forest age classes. Accuracy of the aggregation ranges from approximately 68% to 78% and identification of the mature class is more consistent and accurate than the younger classes.",

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language = "English (US)",

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T1 - Predicting forest age classes from high spatial resolution remotely sensed imagery using Voronoi polygon aggregation

AU - Nelson, Trisalyn

AU - Boots, Barry

AU - Wulder, Mike

AU - Feick, Rob

PY - 2004/6

Y1 - 2004/6

N2 - Efficient identification of forest age is useful for forest management and ecological applications. Here we propose a user-assisted method for determining forest age using high spatial resolution remotely sensed imagery. This method requires individual trees to be extracted from imagery and represented as points. We use a local maximum filter to generate points that are converted to Voronoi polygons. Properties of the Voronoi polygons are correlated with forest age and used to aggregate points (trees) into areas (stands) based on three forest age classes. Accuracy of the aggregation ranges from approximately 68% to 78% and identification of the mature class is more consistent and accurate than the younger classes.

AB - Efficient identification of forest age is useful for forest management and ecological applications. Here we propose a user-assisted method for determining forest age using high spatial resolution remotely sensed imagery. This method requires individual trees to be extracted from imagery and represented as points. We use a local maximum filter to generate points that are converted to Voronoi polygons. Properties of the Voronoi polygons are correlated with forest age and used to aggregate points (trees) into areas (stands) based on three forest age classes. Accuracy of the aggregation ranges from approximately 68% to 78% and identification of the mature class is more consistent and accurate than the younger classes.

KW - Forest age

KW - Point patterns

KW - Spatial analysis

KW - Voronoi polygon

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DO - 10.1023/B:GEIN.0000017745.92969.31

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Predicting forest age classes from high spatial resolution remotely sensed imagery using Voronoi polygon aggregation

Abstract

Keywords

ASJC Scopus subject areas

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