An Avian-Inspired Passive Mechanism for Quadrotor Perching

An Avian-Inspired Passive Mechanism for Quadrotor Perching

Flying robots capable of perch-and-stare are desirable for reconnaissance missions. Inspired by an adaptation that enables songbirds to sleep in trees without active muscle control, the research presented herein details the design for a passive mechanism that enables a rotorcraft to perch reminiscen...

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Bibliographic Details
Published in:IEEE/ASME transactions on mechatronics Vol. 18; no. 2; pp. 506 - 517
Main Authors: Doyle, Courtney E., Bird, Justin J., Isom, Taylor A., Kallman, Jason C., Bareiss, Daman F., Dunlop, David J., King, Raymond J., Abbott, Jake J., Minor, Mark A.
Format: Journal Article
Language:English
Published: IEEE 01-04-2013
Subjects:
Aircraft
Bioinspired
Drones
grasp
Mobile robots
passive actuation
perch-and-stare
Reconnaissance
Robots
tendon
underactuation
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Summary:Flying robots capable of perch-and-stare are desirable for reconnaissance missions. Inspired by an adaptation that enables songbirds to sleep in trees without active muscle control, the research presented herein details the design for a passive mechanism that enables a rotorcraft to perch reminiscent of a bird perching on a tree branch. Perching is accomplished through the integration of a compliant, underactuated gripping foot and a collapsing leg mechanism that converts rotorcraft weight into tendon tension in order to passively actuate the foot. Analysis of mechanism behavior is presented, and stability tests were performed to characterize the ability of the system to reject disturbances. The results indicate that it is possible to passively perch a rotorcraft on multiple surfaces and support reasonable environmental disturbances. The analysis in this paper can enable passive perching design optimization in vertical take-off and landing systems.
ISSN:1083-4435
1941-014X
DOI:10.1109/TMECH.2012.2211081