Abstract
The application of drones has recently revolutionised the mapping of wetlands due to their high spatial resolution and the flexibility in capturing images. In this study, the drone imagery was used to map key vegetation communities in an Irish wetland, Clara Bog, for the spring season. The mapping, carried out through image segmentation or semantic segmentation, was performed using machine learning (ML) and deep learning (DL) algorithms. With the aim of identifying the most appropriate, cost-efficient, and accurate segmentation method, multiple ML classifiers and DL models were compared. Random forest (RF) was identified as the best pixel-based ML classifier, which provided good accuracy (≈85%) when used in conjunction graph cut algorithm for image segmentation. Amongst the DL networks, a convolutional neural network (CNN) architecture in a transfer learning framework was utilised. A combination of ResNet50 and SegNet architecture gave the best semantic segmentation results (≈90%). The high accuracy of DL networks was accompanied with significantly larger labelled training dataset, computation time and hardware requirements compared to ML classifiers with slightly lower accuracy. For specific applications such as wetland mapping where networks are required to be trained for each different site, topography, season, and other atmospheric conditions, ML classifiers proved to be a more pragmatic choice.
Highlights
The use of drones for different types of vegetation classification has increased many folds over the last decade
This study demonstrates the usage of minimum labelled training images for attaining the segmentation, given that 40 images seemed to be sufficient for this application as the weights were initialised using ImageNet dataset having 1000 different classes
This study aimed at providing mapping of vegetation in wetlands using image segmentation
Summary
The use of drones for different types of vegetation classification has increased many folds over the last decade. A very high and flexible spatial resolution can be achieved, which is not possible with satellite imagery due to their fixed orbits. Some of the most popular open-source satellites include the Sentinel and Landsat series These satellites provide global information but lack high spatial resolution with the best resolution possible of 10 m using Sentinel-2 (S2). There are several ways to reduce the error in satellite images, but most of them require extensive hyperspectral bands Another method to get detailed monitoring of small areas is to use unmanned aerial vehicles (UAVs), more commonly known as drones
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