Decision Making / Water Management / Case Study / Insect pests / Crop Protection / Farmer Field School / Assessment Methods / Farmer Field School / Assessment Methods
Modeling / Risk / Invasive Species / Neural Network / Multidisciplinary / Ecological Modelling / Lepidoptera / Logistic Regression / Models / Case Study / United States / Ecological / Vulnerability assessment / Species Distribution Model / Insect pests / Back Propagation Neural Network / Human Activity / Spatial Data / Variable / Lymantria Dispar / Weighted Linear Combination / Area Under the Curve / Gypsy Moth / Neural Network Model / Ecological Modelling / Lepidoptera / Logistic Regression / Models / Case Study / United States / Ecological / Vulnerability assessment / Species Distribution Model / Insect pests / Back Propagation Neural Network / Human Activity / Spatial Data / Variable / Lymantria Dispar / Weighted Linear Combination / Area Under the Curve / Gypsy Moth / Neural Network Model
Decision Making / Water Management / Case Study / Insect pests / Crop Protection / Farmer Field School / Assessment Methods / Farmer Field School / Assessment Methods
Invasive Species / Neural Network / Multidisciplinary / Ecological Modelling / Logistic Regression / Case Study / United States / Ecological / Vulnerability assessment / Species Distribution Model / Insect pests / Back Propagation Neural Network / Human Activity / Spatial Data / Lymantria Dispar / Weighted Linear Combination / Area Under the Curve / Gypsy Moth / Neural Network Model / Case Study / United States / Ecological / Vulnerability assessment / Species Distribution Model / Insect pests / Back Propagation Neural Network / Human Activity / Spatial Data / Lymantria Dispar / Weighted Linear Combination / Area Under the Curve / Gypsy Moth / Neural Network Model