Bryce Hopkins scite author profile

Bryce Hopkins

2Publications

8Citation Statements Received

70Citation Statements Given

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Clemson University

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Wildland Fire Detection and Monitoring Using a Drone-Collected RGB/IR Image Dataset

et al. 2022

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Current forest monitoring technologies including satellite remote sensing, manned/piloted aircraft, and observation towers leave uncertainties about a wildfire's extent, behavior, and conditions in the fire's near environment, particularly during its early growth. Rapid mapping and real-time fire monitoring can inform in-time intervention or management solutions to maximize beneficial fire outcomes. Drone systems' unique features of 3D mobility, low flight altitude, and fast and easy deployment make them a valuable tool for early detection and assessment of wildland fires, especially in remote forests that are not easily accessible by ground vehicles. In addition, the lack of abundant, well-annotated aerial datasets -in part due to unmanned aerial vehicles' (UAVs') flight restrictions during prescribed burns and wildfires -has limited research advances in reliable data-driven fire detection and modeling techniques. While existing wildland fire datasets often include either color or thermal fire images, here we present (1) a multimodal UAV-collected dataset of dual-feed side-by-side videos including both RGB and thermal images of a prescribed fire in an open canopy pine forest in Northern Arizona and (2) a deep learning-based methodology for detecting fire and smoke pixels at accuracy much higher than the usual single-channel video feeds. The collected images are labeled to "fire" or "no-fire" frames by two human experts using side-by-side RGB and thermal images to determine the label. To provide context to the main dataset's aerial imagery, the included supplementary dataset provides a georeferenced pre-burn point cloud, an RGB orthomosaic, weather information, a burn plan, and other burn information. By using and expanding on this guide dataset, research can develop new data-driven fire detection, fire segmentation, and fire modeling techniques.INDEX TERMS Data-driven fire detection, prescribed fire, fire modeling, fire data, unmanned aerial vehicle (UAV), deep learning.

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Wildland Fire Detection and Monitoring using a Drone-collected RGB/IR Image Dataset

Chen

Hopkins

Wang

et al. 2022

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Bryce Hopkins

Wildland Fire Detection and Monitoring Using a Drone-Collected RGB/IR Image Dataset

Wildland Fire Detection and Monitoring using a Drone-collected RGB/IR Image Dataset

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