Nacala-Roof-Material: Drone Imagery for Roof Detection, Classification, and Segmentation to Support Mosquito-borne Disease Risk Assessment

Venkanna Babu Guthula; Stefan Oehmcke; Remígio Chilaule; Hui Zhang; Nico Lang; Ankit Kariryaa; Johan Mottelson; Christian Igel

Nacala-Roof-Material: Drone Imagery for Roof Detection, Classification, and Segmentation to Support Mosquito-borne Disease Risk Assessment

Venkanna Babu Guthula, Stefan Oehmcke, Remígio Chilaule, Hui Zhang, Nico Lang, Ankit Kariryaa, Johan Mottelson, Christian Igel

26 Sept 2024 (modified: 20 Nov 2024)ICLR 2025 Conference Withdrawn SubmissionEveryoneRevisionsBibTeXCC BY 4.0

Keywords: remote sensing, deep learning, disease risk assessment, roof classification, instance segmentation, semantic segmentation, multi-task learning

TL;DR: We introduce a multi-task data set for risk assessment of mosquito-borne diseases, which contains drone imagery from Mozambique in which houses and roof materials are labelled, and benchmark state-of-the-art and novel approaches on these data.

Abstract: As low-quality housing and in particular certain roof characteristics are associated with an increased risk of malaria, classification of roof types based on remote sensing imagery can support the assessment of malaria risk and thereby help prevent the disease. To support research in this area, we release the Nacala-Roof-Material dataset, which contains high-resolution drone images from Mozambique with corresponding labels delineating houses and specifying their roof types. The dataset defines a multi-task computer vision problem, comprising object detection, classification, and segmentation. In addition, we benchmarked various state-of-the-art approaches on the dataset. Canonical U-Nets, YOLOv8, and a custom decoder on pretrained DINOv2 served as baselines. We show that each of the methods has its advantages but none is superior on all tasks, which highlights the potential of our dataset for future research in multi-task learning. While the tasks are closely related, accurate segmentation of objects does not necessarily imply accurate instance separation, and vice versa. We address this general issue by introducing a variant of the deep ordinal watershed (DOW) approach that additionally separates the interior of objects, allowing for improved object delineation and separation. We show that our DOW variant is a generic approach that improves the performance of both U-Net and DINOv2 backbones, leading to a better trade-off between semantic segmentation and instance segmentation.

Primary Area: datasets and benchmarks

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Submission Number: 6852

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