Abstract
Earth-observation-based mapping plays a critical role in humanitarian responses by providing timely and accurate information in inaccessible areas, or in situations where frequent updates and monitoring are required, such as in internally displaced population (IDP)/refugee settlements. Manual information extraction pipelines are slow and resource inefficient. Advances in deep learning, especially convolutional neural networks (CNNs), are providing state-of-the-art possibilities for automation in information extraction. This study investigates a deep convolutional neural network-based Mask R-CNN model for dwelling extractions in IDP/refugee settlements. The study uses a time series of very high-resolution satellite images from WorldView-2 and WorldView-3. The model was trained with transfer learning through domain adaptation from nonremote sensing tasks. The capability of a model trained on historical images to detect dwelling features on completely unseen newly obtained images through temporal transfer was investigated. The results show that transfer learning provides better performance than training the model from scratch, with an MIoU range of 4.5 to 15.3%, and a range of 18.6 to 25.6% for the overall quality of the extracted dwellings, which varied on the bases of the source of the pretrained weight and the input image. Once it was trained on historical images, the model achieved 62.9, 89.3, and 77% for the object-based mean intersection over union (MIoU), completeness, and quality metrics, respectively, on completely unseen images.
Highlights
As of 2019, there were around 79.5 million persons displaced from their homes as a result of either natural or human‐made disasters globally, and, in mid‐2021, this number surpassed 84 million [1]. These populations might either stay within their national borders (internally displaced populations (IDPs)), or they may cross international borders, and a considerable share of these people stay in refugee settlements [2]
The results clearly show that training the model with weight initializations from the weights generated from large‐image sets through domain adaptation has profoundly bet‐
It was learned that, the results obtained from both the ImageNet and Common Object Context (COCO) weight initializations outweigh the results obtained from the random initializa‐
Summary
As of 2019, there were around 79.5 million persons displaced from their homes as a result of either natural or human‐made disasters globally, and, in mid‐2021, this number surpassed 84 million [1] These populations might either stay within their national borders (internally displaced populations (IDPs)), or they may cross international borders (refuges), and a considerable share of these people stay in refugee settlements [2]. Term socioeconomic planning of refugee camps [3,4] This information can be collected by being onsite, through physical observation and measurement, and through other data collection approaches, which involve the presence of data collection analysts/experts. The use of remote‐sensing approaches becomes a viable alternative as an information source for the humanitarian response [2,5,6]
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