Ground-Based Corroboration of GOES-17 Fire Detection Capabilities During Ignition of the Kincade Fire-Reference-Cited by-同舟云学术

Ground-Based Corroboration of GOES-17 Fire Detection Capabilities During Ignition of the Kincade Fire

Published:2020-10-14 Issue: Volume: Page:105-110
ISSN:2325-6184
Container-title:Journal of Operational Meteorology
language:en
Short-container-title:J. Operational Meteor.

Author:

Lindley T. Todd¹,Zwink Alexander B.¹,Gravelle Chad M.²,Schmidt Christopher C.³,Palmer Cynthia K.⁴,Rowe Scott T.⁴,Heffernan Robyn⁵,Driscoll Neal⁶,Kent Graham M.⁷

Affiliation:

1. NOAA/National Weather Service, Norman, OK

2. NOAA/National Weather Service, Southern Region Headquarters, Fort Worth, TX

3. Cooperative Institute for Meteorological Satellite Studies, University of Wisconsin, Madison, WI

4. NOAA/National Weather Service, Monterey, CA

5. NOAA/National Weather Service, Boise, ID

6. University of California, San Diego, CA

7. University of Nevada, Reno, NV

Abstract

Corroboration of Geostationary Operational Environmental Satellite-17 (GOES-17) wildland fire detection capabilities occurred during the 24 October 2019 (evening of 23 October LST) ignition of the Kincade Fire in northern California. Post-analysis of remote sensing data compared to observations by the ALERTWildfire fire surveillance video system suggests that the emerging Kincade Fire hotspot was visually evident in GOES17 shortwave infrared imagery 52 s after the initial near-infrared heat source detected by the ground-based camera network. GOES-17 Advanced Baseline Imager Fire Detection Characteristic algorithms registered the fire 5 min after ignition. These observations represent the first documented comparative dataset between fire initiation and satellite detection, and thus provide context for GOES-16/17 wildland fire detections.

Publisher

National Weather Association

Subject

Management Science and Operations Research,Atmospheric Science,Computers in Earth Sciences

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