Demonstration of stable vertical takeoff of an insect-mimicking flapping-wing system

Hoang Vu Phan; Quang Tri Truong; Quoc Viet Nguyen; Hoon Cheol Park; Doyoung Byun; Nam Seo Goo

doi:10.5302/J.ICROS.2012.18.2.076

Demonstration of stable vertical takeoff of an insect-mimicking flapping-wing system

Hoang Vu Phan
, Quang Tri Truong
, Quoc Viet Nguyen
, Hoon Cheol Park
, Doyoung Byun
, Nam Seo Goo

Konkuk University

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

This paper demonstrates how to implement inherent pitching stability in an insect-mimicking flapping-wing system for vertical takeoff. Design and fabrication of the insect-mimicking flapping-wing system is briefly described focusing on the recent modification. Force produced by the flapping-wing systems is estimated using the UBET (Unsteady Blade Element Theory) developed in the previous work. The estimation shows that the wing twist placed in the modified system can improve thrust production for about 10 %. The estimated thrust is compared with the measured thrust, which proves that the UBET provides fairly good estimations for the thrust produced by the flapping-wing systems. The vertical takeoff test shows that inherent pitching stability can be implemented in an insect-mimicking flapping-wing system by aligning the aerodynamic force center and center of gravity.

Original language	English
Pages (from-to)	76-80
Number of pages	5
Journal	Journal of Institute of Control, Robotics and Systems
Volume	18
Issue number	2
DOIs	https://doi.org/10.5302/J.ICROS.2012.18.2.076
State	Published - Feb 2012
Externally published	Yes

Keywords

Flapping-wing
Inherent stability
Insect-mimicking
Unsteady blade element theory
Vertical takeoff

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10.5302/J.ICROS.2012.18.2.076

Cite this

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title = "Demonstration of stable vertical takeoff of an insect-mimicking flapping-wing system",

abstract = "This paper demonstrates how to implement inherent pitching stability in an insect-mimicking flapping-wing system for vertical takeoff. Design and fabrication of the insect-mimicking flapping-wing system is briefly described focusing on the recent modification. Force produced by the flapping-wing systems is estimated using the UBET (Unsteady Blade Element Theory) developed in the previous work. The estimation shows that the wing twist placed in the modified system can improve thrust production for about 10 \%. The estimated thrust is compared with the measured thrust, which proves that the UBET provides fairly good estimations for the thrust produced by the flapping-wing systems. The vertical takeoff test shows that inherent pitching stability can be implemented in an insect-mimicking flapping-wing system by aligning the aerodynamic force center and center of gravity.",

keywords = "Flapping-wing, Inherent stability, Insect-mimicking, Unsteady blade element theory, Vertical takeoff",

author = "Phan, \{Hoang Vu\} and Truong, \{Quang Tri\} and Nguyen, \{Quoc Viet\} and Park, \{Hoon Cheol\} and Doyoung Byun and Goo, \{Nam Seo\}",

year = "2012",

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doi = "10.5302/J.ICROS.2012.18.2.076",

language = "English",

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AU - Phan, Hoang Vu

AU - Truong, Quang Tri

AU - Nguyen, Quoc Viet

AU - Park, Hoon Cheol

AU - Byun, Doyoung

AU - Goo, Nam Seo

PY - 2012/2

Y1 - 2012/2

N2 - This paper demonstrates how to implement inherent pitching stability in an insect-mimicking flapping-wing system for vertical takeoff. Design and fabrication of the insect-mimicking flapping-wing system is briefly described focusing on the recent modification. Force produced by the flapping-wing systems is estimated using the UBET (Unsteady Blade Element Theory) developed in the previous work. The estimation shows that the wing twist placed in the modified system can improve thrust production for about 10 %. The estimated thrust is compared with the measured thrust, which proves that the UBET provides fairly good estimations for the thrust produced by the flapping-wing systems. The vertical takeoff test shows that inherent pitching stability can be implemented in an insect-mimicking flapping-wing system by aligning the aerodynamic force center and center of gravity.

AB - This paper demonstrates how to implement inherent pitching stability in an insect-mimicking flapping-wing system for vertical takeoff. Design and fabrication of the insect-mimicking flapping-wing system is briefly described focusing on the recent modification. Force produced by the flapping-wing systems is estimated using the UBET (Unsteady Blade Element Theory) developed in the previous work. The estimation shows that the wing twist placed in the modified system can improve thrust production for about 10 %. The estimated thrust is compared with the measured thrust, which proves that the UBET provides fairly good estimations for the thrust produced by the flapping-wing systems. The vertical takeoff test shows that inherent pitching stability can be implemented in an insect-mimicking flapping-wing system by aligning the aerodynamic force center and center of gravity.

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KW - Insect-mimicking

KW - Unsteady blade element theory

KW - Vertical takeoff

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Demonstration of stable vertical takeoff of an insect-mimicking flapping-wing system

Abstract

Keywords

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