TY  - JOUR
U1  - Zeitschriftenartikel, wissenschaftlich - begutachtet (reviewed)
A1  - Pearse, Grant D.
A1  - Tan, Alan Y.S.
A1  - Watt, Michael S.
A1  - Franz, Matthias O.
A1  - Dash, Jonathan P.
T1  - Detecting and mapping tree seedlings in UAV imagery using convolutional neural networks and field-verified data
JF  - ISPRS Journal of Photogrammetry and Remote Sensing
N2  - Mapping of tree seedlings is useful for tasks ranging from monitoring natural succession and regeneration to effective silvicultural management. Development of methods that are both accurate and cost-effective is especially important considering the dramatic increase in tree planting that is required globally to mitigate the impacts of climate change. The combination of high-resolution imagery from unmanned aerial vehicles and object detection by convolutional neural networks (CNNs) is one promising approach. However, unbiased assessments of these models and methods to integrate them into geospatial workflows are lacking. In this study, we present a method for rapid, large-scale mapping of young conifer seedlings using CNNs applied to RGB orthomosaic imagery. Importantly, we provide an unbiased assessment of model performance by using two well-characterised trial sites together containing over 30,000 seedlings to assemble datasets with a high level of completeness. Our results showed CNN-based models trained on two sites detected seedlings with sensitivities of 99.5% and 98.8%. False positives due to tall weeds at one site and naturally regenerating seedlings of the same species led to slightly lower precision of 98.5% and 96.7%. A model trained on examples from both sites had 99.4% sensitivity and precision of 97%, showing applicability across sites. Additional testing showed that the CNN model was able to detect 68.7% of obscured seedlings missed during the initial annotation of the imagery but present in the field data. Finally, we demonstrate the potential to use a form of weakly supervised training and a tile-based processing chain to enhance the accuracy and efficiency of CNNs applied to large, high-resolution orthomosaics.
KW  - Deep learning
KW  - Convolutional networks
KW  - Tree seedlings
KW  - Unmanned aerial vehicles
KW  - Forest establishment
KW  - Object detection
Y1  - 2020
SN  - 0924-2716
SS  - 0924-2716
SN  - 1872-8235
SS  - 1872-8235
U6  - https://doi.org/10.1016/j.isprsjprs.2020.08.005
DO  - https://doi.org/10.1016/j.isprsjprs.2020.08.005
IS  - Vol. 168
SP  - 156
EP  - 169
ER  -