Fire Dynamic Vision for tracking fire and plume behavior across scales: Case Studies from Tall Timbers and the Jones Center from 2019-2023

Sample data and Fire Dynamic Vision (FDV) code for experiments in the paper: Sagel, D., & Quaife, B. (2025). Fire dynamic vision: Image segmentation and tracking for multi-scale fire and plume behavior. Environmental Modelling & Software, 185, 106286. https://doi.org/10.1016/j.envsoft.2024.106286

Data and Resources

Additional Info

Field Value
Last Updated July 4, 2025, 09:33 (UTC)
Created July 4, 2025, 09:33 (UTC)
Source https://wfsi-data.org/view/doi%3A10.60594/W43S3R
award The Role of Vorticity and Fuel Moisture on the Near-Field Plume Structure and Ember Dynamics
creators Bryan Quaife, bquaife@fsu.edu, Florida State University, https://orcid.org/0000-0002-9186-8926 | Daryn Sagel, dsagel@fsu.edu, Florida State University
doi doi:10.60594/W43S3R
encoding utf8
funder U. S. Department of Defense (DoD), Strategic Environmental Research and Development Program (SERDP), http://dx.doi.org/10.13039/100013316
harvest_object_id b1fd400a-c245-4af1-b421-3656ee0e8b04
harvest_source_id a2637971-af12-457f-ae4a-831d2202a539
harvest_source_title WIFIRE Commons
maintainor Bryan Quaife, bquaife@fsu.edu
method Visual images of the fire and plume are captured with a Hero 7 GoPro mounted alongside the Teledyne FLIR A655sc infrared camera. The provided examples include small pine straw fuel beds ignited with a head fire, and a landscape scale prescribed fire of a longleaf pine unit at the Jones Center.
project Funding Award RC20-1298: The Role of Vorticity and Fuel Moisture on the Near-Field Plume Structure and Ember Dynamics
spatial {"type": "Polygon", "coordinates": [[[-84.209825, 30.656442], [-84.479626, 30.656442], [-84.479626, 31.218383], [-84.209825, 31.218383], [-84.209825, 30.656442]]]}
temporal {"endTime": "2023-03-15", "startTime": "2019-11-22"}