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    Planning of Commercial Thinnings Using Machine Learning and Airborne Lidar Data

    New search for: Tauri Arumäe
    New search for: Mait Lang
    New search for: Allan Sims
    New search for: Diana Laarmann

    The goal of this study was to predict the need for commercial thinning using airborne lidar data (ALS) with random forest (RF) machine learning algorithm. Two test sites (with areas of 14,750 km2 and 12,630 km2) were used with a total of 1053 forest stands from southwestern Estonia and 951 forest stands from southeastern Estonia. The thinnings were predicted based on the ALS measurements in 2019 and 2017. The two most important ALS metrics for predicting the need for thinning were the 95th height percentile and the canopy cover. The prediction accuracy based on validation stands was 93.5% for southwestern Estonia and 85.7% for southeastern Estonia. For comparison, the general linear model prediction accuracy was less for both test sites—92.1% for southwest and 81.8% for southeast. The selected important predictive ALS metrics differed from those used in the RF algorithm. The cross-validation of the thinning necessity models of southeastern and southwestern Estonia showed a dependence on geographic regions.

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    Planning of Commercial Thinnings Using Machine Learning and Airborne Lidar Data

    New search for: Tauri Arumäe
    New search for: Mait Lang
    New search for: Allan Sims
    New search for: Diana Laarmann

    The goal of this study was to predict the need for commercial thinning using airborne lidar data (ALS) with random forest (RF) machine learning algorithm. Two test sites (with areas of 14,750 km2 and 12,630 km2) were used with a total of 1053 forest stands from southwestern Estonia and 951 forest stands from southeastern Estonia. The thinnings were predicted based on the ALS measurements in 2019 and 2017. The two most important ALS metrics for predicting the need for thinning were the 95th height percentile and the canopy cover. The prediction accuracy based on validation stands was 93.5% for southwestern Estonia and 85.7% for southeastern Estonia. For comparison, the general linear model prediction accuracy was less for both test sites—92.1% for southwest and 81.8% for southeast. The selected important predictive ALS metrics differed from those used in the RF algorithm. The cross-validation of the thinning necessity models of southeastern and southwestern Estonia showed a dependence on geographic regions.

    Access

    Download

    Planning of Commercial Thinnings Using Machine Learning and Airborne Lidar Data

    New search for: Tauri Arumäe
    New search for: Mait Lang
    New search for: Allan Sims
    New search for: Diana Laarmann

    The goal of this study was to predict the need for commercial thinning using airborne lidar data (ALS) with random forest (RF) machine learning algorithm. Two test sites (with areas of 14,750 km2 and 12,630 km2) were used with a total of 1053 forest stands from southwestern Estonia and 951 forest stands from southeastern Estonia. The thinnings were predicted based on the ALS measurements in 2019 and 2017. The two most important ALS metrics for predicting the need for thinning were the 95th height percentile and the canopy cover. The prediction accuracy based on validation stands was 93.5% for southwestern Estonia and 85.7% for southeastern Estonia. For comparison, the general linear model prediction accuracy was less for both test sites—92.1% for southwest and 81.8% for southeast. The selected important predictive ALS metrics differed from those used in the RF algorithm. The cross-validation of the thinning necessity models of southeastern and southwestern Estonia showed a dependence on geographic regions.

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    Title:

    Planning of Commercial Thinnings Using Machine Learning and Airborne Lidar Data

    Contributors:

    Tauri Arumäe (author) / Mait Lang (author) / Allan Sims (author) / Diana Laarmann (author)

    Published in:

    Forests, Vol 13, Iss 2, p 206 (2022)

    Publication date:

    2022

    ISSN:

    1999-4907

    DOI:

    https://doi.org/10.3390/f13020206

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    forest management planning , machine learning , airborne lidar , commercial thinning , sparse lidar point clouds , Plant ecology , QK900-989

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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