Deep Learning with Northern Australian Savanna Tree Species: A Novel Dataset

The classification of savanna woodland tree species from high-resolution Remotely Piloted Aircraft Systems (RPAS) imagery is a complex and challenging task. Difficulties for both traditional remote sensing algorithms and human observers arise due to low interspecies variability (species difficult to...

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Bibliographic Details
Published in:Data (Basel) 2023-02, Vol.8 (2), p.44
Main Authors: Jansen, Andrew J., Nicholson, Jaylen D., Esparon, Andrew, Whiteside, Timothy, Welch, Michael, Tunstill, Matthew, Paramjyothi, Harinandanan, Gadhiraju, Varma, van Bodegraven, Steve, Bartolo, Renee E.
Format: Article
Language:English
Subjects:
Aircraft
Algorithms
Annotations
artificial intelligence
Artificial neural networks
Classification
Data mining
Datasets
Deep learning
Drone aircraft
drones
Imagery
Kakadu National Park
Labeling
Labels
Machine learning
Methods
National parks
Neural networks
Northern Hemisphere
Object recognition
Polygons
Remote sensing
Remotely piloted aircraft
RPAS
savanna woodlands
Savannas
Training
Trees
tropical savanna
Woodlands
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Summary:The classification of savanna woodland tree species from high-resolution Remotely Piloted Aircraft Systems (RPAS) imagery is a complex and challenging task. Difficulties for both traditional remote sensing algorithms and human observers arise due to low interspecies variability (species difficult to discriminate because they are morphologically similar) and high intraspecies variability (individuals of the same species varying to the extent that they can be misclassified), and the loss of some taxonomic features commonly used for identification when observing trees from above. Deep neural networks are increasingly being used to overcome challenges in image recognition tasks. However, supervised deep learning algorithms require high-quality annotated and labelled training data that must be verified by subject matter experts. While training datasets for trees have been generated and made publicly available, they are mostly acquired in the Northern Hemisphere and lack species-level information. We present a training dataset of tropical Northern Australia savanna woodland tree species that was generated using RPAS and on-ground surveys to confirm species labels. RPAS-derived imagery was annotated, resulting in 2547 polygons representing 36 tree species. A baseline dataset was produced consisting of: (i) seven orthomosaics that were used for in-field labelling; (ii) a tiled dataset at 1024 Ă— 1024 pixel size in Common Objects in Context (COCO) format that can be used for deep learning model training; (iii) and the annotations.
ISSN:2306-5729
2306-5729
DOI:10.3390/data8020044