Orbital Wildfire Resilience Contract Awarded to MyRadar
NOAA has awarded an SBIR Phase II contract to MyRadar for its Orbital Wildfire Resilience (OWR) project. The grant award builds on the successful completion of the NOAA SBIR Phase I project. This ground-breaking initiative aims to boost resilience against wildfires using MyRadar's compact satellite technology, Artificial Intelligence (AI), and its widespread information distribution platform with the popular MyRadar app.
"Phase II builds on the lab, field, and space testing the team has already completed, and the primary science mission will be to collect training data from low Earth orbit." Dr. Sarvesh Garimella, MyRadar
As a NOAA Weather-Ready Nation (WRN) Ambassador, MyRadar will further accelerate the research and development (R&D) for advanced space-based hardware and software to mitigate the impact of wildfires. Wildfires pose an increasing risk that challenges the resilience of the American public and economy, and often result in the tragic loss of human lives, as seen recently on the Hawaiian island of Maui. The R&D undertaken in the Orbital Wildfire Resilience project will bolster the availability of new hazard alert products for consumers, enterprise organizations and government institutions through the MyRadar app, made possible by the creation of satellite data products that address gaps in existing hazard detection. The alerting aspects, specifically, will help provide earlier and more timely warnings to help save lives.
Orbital Wildfire Resilience Demonstration will Utilize Multi-Sensor Data Capture
The Phase II mission will be an orbital demonstration of multi-sensor data capture and downlink, AI-assisted alerting, and training dataset generation, and includes building and launching two pathfinder satellites that will represent the first two commercial satellites in the company's HORIS constellation. An acronym for Hyperspectral Orbital Remote Imaging Spectrometer, the 1U (10cm3) "smallsat" flight models will collect orbital training data to refine the AI detection and alerting models.
"Phase II builds on the lab, field, and space testing the team has already completed, and the primary science mission will be to collect training data from low Earth orbit (LEO) for the larger constellation's AI systems," says MyRadar Chief Scientist & CTO, Dr. Sarvesh Garimella, who is the mission's Principal Investigator.
The award highlights NOAA's efforts to build public/private partnerships to encourage innovation in technological advancements that benefit the American public, and helps fuel a significant step in MyRadar's ongoing R&D towards enhancing its alerting, forecasting, and satellite imagery capabilities. The full HORIS constellation will consist of 150 satellites that will orbit the planet and trigger low-latency alerts for wildfire mitigation, among a slew of other satellite-based products. All HORIS satellite data products and alerts will be available from within the MyRadar app and will offer global coverage.
(Source: MyRadar news release. Image provided)