Hurricane Helene Response: Sentaero Pilots Collect Critical Data in Storm’s Aftermath

In the wake of Hurricane Helene, the devastation left behind required swift and efficient action to assess damages and coordinate emergency response. To meet this challenge, two Censys Technologies Sentaero 5 Unmanned Aerial Systems (UAS) crews were dispatched to collect crucial data across some of the hardest-hit areas, focusing on key infrastructure like roads. Using advanced drone technology, these teams gathered extensive information on road blockages, asset damage, and debris accumulation, which would become essential in the ongoing recovery efforts.

The use of drones—specifically the Sentaero 5, a fixed-wing vertical take-off and landing (VTOL) drone—enabled the collection of high-quality, comprehensive data across long roadway corridors in less time than would be feasible with VLOS and shorter communication link range UAS alternatives. This initiative showcased the critical role of UAS in disaster response and recovery.

The Power of UAS Technology in Disaster Response

The Sentaero 5 is a perfect platform for these operations due to its unique capabilities that make it particularly suited for large-scale data collection. Equipped with a 61-megapixel Sony ILX camera, the Sentaero 5 was able to capture high-resolution images, providing detailed insights into the damage caused by Hurricane Helene.

One of the most valuable aspects of the Sentaero 5 is its ability to operate Beyond Visual Line of Sight (BVLOS), which allows the drone to cover significant distances without needing the operator to maintain direct visual contact. This capability makes it ideal for surveying vast areas affected by natural disasters, where rapid assessment is crucial.

What sets the Sentaero 5 apart is its cellular command and control (C2) link. By utilizing a cellular network, similar to the one used by standard mobile phones, operators can control the drone with greater range and reliability. Onboard the drone are four SIM cards, which enable it to switch seamlessly between the strongest network connections. This feature is particularly beneficial in disaster zones, where communications infrastructure may be compromised. The cellular link allows for Sentaero operations spanning 10, 15, or even 20 miles out, far exceeding the typical 3-mile range of traditional radio systems.

Maximizing Efficiency Through Regulatory Support

Critical to the success of these operations was the Special Government Interest (SGI) authorizationsgranted for many of the flight operations conducted during Censys’ response. These authorizations, provided by the Federal Aviation Administration (FAA), allowed the UAS crews to legally conduct BVLOS operations in areas where normal restrictions might otherwise apply.

Not only did these authorizations facilitate the UAS missions, but the FAA issued Temporary Flight Restrictions (TFRs) in nine of the affected areas, which provided a safe operational environment by restricting other air traffic. This coordination between regulatory agencies and UAS operators underscores the importance of government support in enabling effective disaster response using drones.

The SGI authorizations played a pivotal role in ensuring that the data collection missions could be completed efficiently, safely, and without interference. These measures allowed the response teams to focus on gathering data quickly in areas.

Mission Results: Impact of UAS Data on Recovery Operations

The Sentaero crews were able to capture around 500 miles of roadways between Pine Island and Sanibel Island, including downtown Tampa, in just a few days, showcasing the efficiency of drone-based data collection in post-disaster scenarios. The data collected was instrumental in assessing road blockages, determining the extent of asset damage, and quantifying debris levels.

For instance, the high-resolution imagery captured by the Sentaero 5 provided detailed visuals of blocked roads, damaged infrastructure, and areas requiring immediate attention. This data was shared with response teams and used to optimize the dispatch of crews to clear roads and restore access to affected communities.

By prioritizing areas with the most significant damage or blockages, response teams were able to allocate their resources more effectively, reducing delays in the recovery process. This not only improved the speed of the recovery effort but also ensured that emergency services could reach critical locations faster.

Conclusion

The use of UAS in the response to Hurricane Helene highlights the transformative potential of drone technology in disaster scenarios. With platforms like the Sentaero 5, equipped with quality imaging technology and BVLOS capabilities, teams can gather essential data over large areas in a fraction of the time it would take using traditional methods.

The operations carried out by the UAS crews provided critical information that informed response strategies and ensured that resources were deployed where they were most needed. As disaster response technologies continue to evolve, UAS will undoubtedly play an even larger role in future recovery efforts, proving themselves to be indispensable tools in safeguarding communities.

About Censys Technologies:

Censys Technologies is a leading provider of uncrewed aerial systems, specializing in the development and production of innovative BVLOS drones for various industries. With a focus on advanced technologies and user-centric design, Censys Technologies strives to deliver at the edge solutions that revolutionize the way businesses operate. For more information, visit censystech.com.