Abstract
Ireland has a wide variety of farmlands that includes arable fields, grassland, hedgerows, streams, lakes, rivers, and native woodlands. Traditional methods of habitat identification rely on field surveys, which are resource intensive, therefore there is a strong need for digital methods to improve the speed and efficiency of identification and differentiation of farmland habitats. This is challenging because of the large number of subcategories having nearly indistinguishable features within the habitat classes. Heterogeneity among sites within the same habitat class is another problem. Therefore, this research work presents a preliminary technique for accurate farmland classification using stacked ensemble deep convolutional neural networks (DNNs). The proposed approach has been validated on a high-resolution dataset collected using drones. The image samples were manually labelled by the experts in the area before providing them to the DNNs for training purposes. Three pre-trained DNNs customized using the transfer learning approach are used as the base learners. The predicted features derived from the base learners were then used to train a DNN based meta-learner to achieve high classification rates. We analyse the obtained results in terms of convergence rate, confusion matrices, and ROC curves. This is a preliminary work and further research is needed to establish a standard technique.
Highlights
The training step was carried out to 50 epochs. It can be seen from the results that the highest accuracy and lowest loss for both training and validation were obtained for the stacked ensemble model
It waswere verified that the performance the stacked ensemble model was
The overall prediction accuracy achieved by the stacked the base-learners
Summary
Habitat mapping can be utilized in a variety of applications in nature conservation. They serve as a guiding principle for monitoring inventories of natural areas, curating the networks of protected areas, environmental impact assessment, management planning, and target setting for ecological restoration. Most such applications still rely on field-based methods. The research in this area is increasingly focused on the data available from satellite imagery. Earth observation data offers new opportunities for environmental sciences and is transforming artificial intelligence-based methodologies because of the massive data with spatial, spectral, and temporal variations available from satellite sensors [8–10]
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