OSU receives $5.5 million grant for study of local weather systems

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The National Institute of Standards and Technology (NIST) awarded Oklahoma State University (OSU) $5.5 million as part of the Consolidated Appropriations Act of 2024. The purpose of these funds is to increase knowledge about local weather systems in the lower atmosphere, enabling the safe integration of small Unmanned Aerial Vehicles and Advanced Air Mobility aircraft into the National Airspace System.

Senator Markwayne Mullin (R-OK) and Representative Frank Lucas (OK-03) were the sponsors of the congressionally directed spending that made this funding possible. NIST’s authority is under the jurisdiction of the House Science, Space, and Technology Committee, of which Congressman Lucas serves as Chairman. This project also received support from Stillwater Mayor Will Joyce and Payne County Commissioner Chris Reding.

“I’ve been proud to see my Alma Mater – Oklahoma State University – take initiatives in the aerospace industry and weather data sciences. I’ve spoken with President Shrum about the immense progress being made on campus in recent years, and it’s clear this community funded project will only further its impact,” said Congressman Frank Lucas.

“Those of us in Oklahoma know firsthand how important accurate weather predictions are to our livelihoods, and the funding made possible by this congressionally directed spending will enable OSU to take great strides in enhancing weather prediction through Unmanned Aircraft Systems. I’d like to thank President Shrum for her efforts and am excited to see what positive results this project will bring to our state.”

“Oklahoma State University is leading the way in the aerospace and aviation industry,” said Senator Mullin. “These funds will allow their innovation to continue as they expand research into weather sensors in commercial Unmanned Aerial Vehicles and Advanced Air Mobility aircraft. I’m thrilled to share this news, and I also want to thank President Shrum for her leadership.”

“This funding will provide enormous benefit to Oklahoma and the nation through facilitating the safe and sustainable integration of small Unmanned Aircraft Systems and Advanced Air Mobility into the National Airspace System, said OSU President Kayse Shrum.

“The enhanced coverage and precision of low-altitude weather data this project will provide will offer significant benefits to the helicopter-based Emergency Medical Services community operating within the same airspace, helping to lessen their operational risks.”

BACKGROUND

  • The objective of this project is to increase knowledge about local weather systems in the lower atmosphere, enabling the safe integration of small Unmanned Aerial Vehicles and Advanced Air Mobility aircraft into the National Airspace System.
  • The researchers will create a method to standardize and trace commercial UAS and Advanced Air Mobility (AAM) atmospheric measurements. The project will develop protocols and standards for the Unmanned Aircraft Meteorological Data Report. The project will also evaluate existing maintenance operations that may support AAM operations, particularly related to weather impacts related to severe weather and fire. The researchers will also develop curricula to help the aviation community apply the new technology.
  • This project will demonstrate a novel, cost-effective method to support the integration of weather sensors in commercial UAS and AAM aircraft. The proposed system is essential for gathering local weather data and establishing a weather information dissemination network. The project will demonstrate dynamic path planning based on local weather data.
  • This project facilitates the safe and sustainable integration of small Unmanned Aircraft Systems and Advanced Air Mobility into the National Airspace System. The technological advancements will also benefit the broader aviation community. The enhanced coverage and precision of low-altitude weather data offer significant benefits to the helicopter-based Emergency Medical Services community operating within the same airspace, helping to mitigate their operational risks. The meteorology community will be able to leverage this data to refine weather products and extend warning times for potentially hazardous conditions contributing to safety measures for various stakeholders within the airspace ecosystem.

Source: Lucas press release