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SBIR Phase I: Long Endurance Autonomous Aerial Vehicles for Geoscience Applications

$99,956FY2004TIPNSF

Kalscott Engineering Inc., Lawrence KS

Investigators

Abstract

This Small Business Innovation Research (SBIR) Phase I project will develop and demonstrate capable and reliable autonomous aerial platforms for geoscience missions. This will allow relevant scientific data to be gathered via remote, autonomous means, providing timely atmospheric and environmental data on a global scale, using a reliable, costeffective, easy-to-use tool. Such data has been shown to have significant bearing on the global weather patterns, thereby affecting the lives of people in all parts of the planet, both in the short term and in the long term. There are two major challenges: efficient aerodynamic, efficient engines and robust airframes to withstand turbulence. This proposal tackles these challenges, and presents innovative airframe and engine concepts that will enable long range (3500+ miles), long endurance (50+ hour) missions to be flown routinely. The aircraft will be able to make transoceanic or transcontinental flights, gathering relevant atmospheric data. Due to their improved aerodynamics and engines, such aircraft will also be able to fly in adverse weather conditions, which is currently not possible with existing UAV designs. The company is currently working with several university groups on such scientific missions, along with the US Department of Defense, Department of Transportation, NASA, and the Department of Homeland Security, thus giving us a clear path to commercialization. The vehicle developed in this effort can be sold or leased to end-users for scientific, civilian or military missions including atmospheric and environmental monitoring, wildlife monitoring/tracking, aerial photography, border patrol, law enforcement surveillance, communication nodes, target designation and tracking.

View original record on NSF Award Search →