Fire - Wildland

Harnessing Satellite Technology for Wildland Fire Response and Recovery

Over the past weeks, the United States has watched again as wildfires, the Palisades and Eaton fires destroy entire communities. It is a grim scenario that has become uncomfortably familiar. As we grapple with yet another disaster, the conversations on social media have quickly turned to critiques, debates, and calls for systemic change. While these discussions have their place, I wanted to take a moment to focus on something positive.

In the wake of disaster, I often think of how incredibly far technology has brought us in supporting disaster response and recovery. From satellite imagery to real-time damage assessments, advancements in data collection and geospatial tools are providing insights that really are making a difference.

The dashboard below has resulted in a tool that exemplifies this progress: A 3D damage assessment dashboard. This application combines ICEYE satellite data with GIS technology to deliver rapid potential damage assessments for the areas impacted by the fires. This tool shines a light on what’s possible with technology today—offering communities the timely information they need to begin recovery efforts.

Screenshot of 3D Damage Assessment Dashboard – Eaton Fire
3D Damage Assessment Dashboard – Palisades Fire

The Importance of Timely Damage Assessments

Timely damage assessments enable public safety agencies to allocate resources efficiently, prioritize areas in need, and expedite relief to affected communities. Communities and homeowners are also afforded closure more quickly. Traditional assessment methods, often reliant on door-to-door ground surveys, are time-consuming. In the case of the recent fires in California, persistent high winds for extended periods of time, grounded traditional airborne assets, impacting firefighting efforts and creating a blind spot for responders on the ground. Integrating satellite imagery and AI approaches into these assessments helps to fill gaps, while significantly enhancing both speed and accuracy.

As an example, in the case of the Palisades Fire, ICEYE acquired its first image and delivered its first results all within 24 hours of the first detection of smoke on the ground. The ICEYE team has continued to deliver updated results of impacted buildings for that fire twice daily while also imaging and analyzing the nearby Eaton and Hurst Fires.

ICEYE’s Satellite Data

ICEYE, a leader in synthetic aperture radar (SAR) technology and near real-time natural disaster insights, operates the world’s largest SAR satellite constellation. Their satellites capture high-resolution images with rapid revisit rates regardless of weather conditions, time of day, or smoke cover ensuring data collection capabilities during and immediately after disasters.

Accessing Satellite-Derived Insights for Public Safety Agencies

ICEYE’s Wildfire Insights (part of its portfolio of natural disaster analytical products) is an always-on service, delivering geospatial insights rather than radar imagery.

Public safety agencies seeking to utilize ICEYE’s Wildfire Insights need only contact ICEYE directly through their official website to express interest to establish service. ICEYE is already monitoring, targeting, and analyzing wildfires so agencies don’t need to delineate areas of interest or request acquisition timelines. A team of meteorologists, geospatial and remote sensing experts are constantly monitoring wildfire events and producing damage assessments for impactful events – and utilizing Esri’s ArcGIS technology throughout the process.

Once the analysis is produced, ICEYE’s insights can easily be integrated into ArcGIS Online or used within ArcGIS Pro for analysis.

Ground Verification and Response

The data utilized in this application isn’t just for looks, it was leveraged by responders across federal, state, and local agencies working the fires. It serves operational purposes including populating web maps with the damage classifications as a feature class. This means that agencies can give every responder in the field access to the baseline damage data with the ability to edit damage classifications directly from their mobile devices.

Moreover, putting this data into web maps can significantly aid other teams focused on search and rescue by delivering reliable locations with the most severe damage, enabling targeted search efforts and potentially saving lives.

View Authoritative Damage Assessment data from CAL FIRE here.

Learn more

To learn more about GIS for wildland fire, visit our solution page or download our ebook.

About the authors

Anthony Schultz is the Director of Wildland Fire Solutions at Esri. He has a background in wildland fire management and operations, having served in a variety of capacities, most recently as the Fire Management Officer (FMO) for the State of Wyoming. During his tenure in Wyoming, he served as chair of the Western State Fire Managers and was a Rocky Mountain Coordinating Group member. He has also served as an FMO with the State of North Dakota. Prior to becoming an FMO, he worked as a wildland firefighter the Bureau of Land Management, the National Park Service, and the US Fish and Wildlife Service.

Mike Seybert is a Solution Engineer on Esri's National Government team, based at Esri Headquarters in Redlands, California. He currently supports Esri's global aviation industry, which includes Civil Aviation Authorities, Air Navigation Service Providers, and Airport Authorities. He has background in technical sales, UAS-based Imagery capture and processing, Commercial Industries, and Global Aviation Standards and practices. He has interest in manned aviation, unmanned aerial vehicles and aviation related system, automation, and the integration of SDI in the aeronautical world. In addition, to support for global aviation Mike also directly supports Esri's Corporate drone operations at Esri Headquarters in Redlands, California and is a certified commercial drone pilot.

Dr. Kate Fickas is the Esri Director of Imagery and Remote Sensing Solutions. With background as both a remote sensing product producer and end user, she employs her interdisciplinary expertise in satellite, drone, and lidar remote sensing, GIS, statistical modeling, and machine learning, to develop user and solution driven approaches to cross-industry applications. With her dynamic industry experience ranging from academic research to commercial and government work, Kate is passionate about storytelling and creating authentic, inclusive communities of practice who employ imagery and remote sensing technology to solve the world’s most complex challenges.

Next Article

From Navy Intern to Campus Innovator: Kavin Phabiani's Journey to Founding a GIS Club on Campus

Read this article