30-Jun-2025Source: Honeywell
Honeywell and Near Earth Autonomy have successfully completed the first autonomous test flight of a Leonardo AW139 helicopter, marking a major milestone in support of the U.S. Marine Corps Aerial Logistics Connector (ALC) program. This flight demonstrates the feasibility of uncrewed, autonomous aircraft capable of operating in contested environments without an onboard pilot or remote operator.... Read more
18-Jun-2025Source: Honeywell
Honeywell and Near Earth Autonomy have successfully completed the first autonomous test flight of a Leonardo AW139 helicopter, marking a major milestone in support of the U.S. Marine Corps Aerial Logistics Connector (ALC) program. This flight demonstrates the feasibility of uncrewed, autonomous aircraft capable of operating in contested environments without an onboard pilot or remote operator.... Read more
8-May-2025Source: Honeywell
The U.S. Army selected Near Earth Autonomy (Near Earth) to lead a new $15 Million program to develop and field an optionally piloted contested logistics solution by retrofitting UH-60L Black Hawk helicopters with advanced autonomy kits. This Army Program Executive Office, Aviation (PEO Aviation) funded effort is a collaboration between Near Earth and Honeywell, designed to transform... Read more
11-Oct-2023Source: Kaman
Near Earth Autonomy, Inc. (Near Earth) and Kaman Air Vehicles, a division of Kaman Corporation (NYSE: KAMN), announced that they have been awarded a contract by the U.S. Army to demonstrate a resupply uncrewed aerial system (UAS) capable of moving loads with a minimum of 800 pounds and flying distances over 100 miles. This heavy-lift... Read more
18-Jun-2021Source: Volocopter
Near Earth Autonomy and Volocopter’s VoloDrone team announced that they will partner to test Near Earth Autonomy’s autonomous flight technology on Volocopter’s electric vertical take-off and landing (eVTOL) VoloDrone aircraft. As leaders in the eVTOL and autonomy industries respectively, Volocopter and Near Earth Autonomy will combine and apply their expertise to further autonomous urban air mobility (UAM). Together... Read more
