Research: Difference between revisions
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Birds fly in V or echelon formations for energy saving as well as enemy defense. The follower bird usually flies in the wakes generated by the leader bird. However, it is unclear how exactly birds interact with the wake vortices during close formation flight. Small UAVs offer ideal platforms for further understanding of the interaction between the aircraft and the flow field such as wake vortices generated by the leader aircraft. Such researches could potentially lead to significant fuel saving of commercial flights and help decreasing the waiting time at airport terminals. | Birds fly in V or echelon formations for energy saving as well as enemy defense. The follower bird usually flies in the wakes generated by the leader bird. However, it is unclear how exactly birds interact with the wake vortices during close formation flight. Small UAVs offer ideal platforms for further understanding of the interaction between the aircraft and the flow field such as wake vortices generated by the leader aircraft. Such researches could potentially lead to significant fuel saving of commercial flights and help decreasing the waiting time at airport terminals. | ||
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*'''1.First autonomous flight of Khawk 1, September 2014''' | *'''1.First autonomous flight of Khawk 1, September 2014''' |
Revision as of 08:20, 25 June 2015
Research
CUSL‘s research interest is in the areas of estimation, control, and dynamics of unmanned vehicles with an emphasis on unmanned aerial vehicles. Current focus is on vision-aided navigation, wind/gust estimation, cooperative control, remote sensing, and small UAV development.
Active Projects:
Small Unmanned System Development for Scientific Researches
Small unmanned autonomous systems can be deployed for different scientific research projects including but not limited to aviation safety research, atmospheric measurement, agricultural/environment monitoring, emergency response, etc.
Khawk - Flying Wing UAV
Khawk FlyingWing-48 UAV | Specifications |
Wingspan | 48 inch |
Weight | 4 lbs |
Cruise Speed | 15 m/s |
Fight Endurance | ~30 min |
Control Surface | Two Elevens |
Power | Electric Motor |
Take-off | Bungee |
Payload | GoPro Hero II |
Autopilot | Papparazzi Autopilot+Gumstix |
Khawk 48"-1 Flight Test
1. Khawk flying-wing-48 manual takeoff
2. Khawk Flying Wing 48 Auto-Circling
Wind/Gust/Wake Sensing and Suppression with Aircraft Formation Flight
Birds fly in V or echelon formations for energy saving as well as enemy defense. The follower bird usually flies in the wakes generated by the leader bird. However, it is unclear how exactly birds interact with the wake vortices during close formation flight. Small UAVs offer ideal platforms for further understanding of the interaction between the aircraft and the flow field such as wake vortices generated by the leader aircraft. Such researches could potentially lead to significant fuel saving of commercial flights and help decreasing the waiting time at airport terminals.
- 1.First autonomous flight of Khawk 1, September 2014