Untethered Flight of an At-Scale Dual-Motor Hummingbird Robot With Bio-Inspired Decoupled Wings

Untethered Flight of an At-Scale Dual-Motor Hummingbird Robot With Bio-Inspired Decoupled Wings

In this letter, we present the untethered flight of an at-scale tailless hummingbird robot with independently controlled wings. It represents the first untethered stable flight of a two actuator powered bio-inspired Flapping Wing Micro Air Vehicle (FWMAV) in both indoor and outdoor environment. The...

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Veröffentlicht in:IEEE robotics and automation letters 2020-07, Vol.5 (3), p.4194-4201
Hauptverfasser: Tu, Zhan, Fei, Fan, Deng, Xinyan
Format: Artikel
Sprache:eng
Schlagworte:
Actuation
Actuators
Biologically-inspired robots
DC motors
flapping wing
Flapping wings
Flight control
Indoor environments
Kinematics
micro aerial vehicle
Micro air vehicles (MAV)
Optimization
Payloads
Power efficiency
Robots
Torque
Torque measurement
untethered flight
Voltage measurement
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Beschreibung
Zusammenfassung:In this letter, we present the untethered flight of an at-scale tailless hummingbird robot with independently controlled wings. It represents the first untethered stable flight of a two actuator powered bio-inspired Flapping Wing Micro Air Vehicle (FWMAV) in both indoor and outdoor environment. The untethered flight of such FWMAVs is a challenging task due to stringent payload limitation from severe underactuation and power efficiency challenge caused by motor reciprocating motion. In this work, we present the detailed modeling, optimization, and system integration of onboard power, actuation, sensing, and flight control to address these unique challenges of such FWMAV during untethered flight. We performed untethered flight experiments in both indoor and outdoor environment and demonstrate sustained stable flight of the robot.
ISSN:2377-3766
2377-3766
DOI:10.1109/LRA.2020.2974717