Numerical investigation of the aerodynamic characteristics of a hovering Coleopteran insect

Tuyen Quang Le; Doyoung Byun; Saputra; Jin Hwan Ko; Hoon Choel Park; Minjun Kim

doi:10.1016/j.jtbi.2010.07.013

Numerical investigation of the aerodynamic characteristics of a hovering Coleopteran insect

Tuyen Quang Le, Doyoung Byun, Saputra, Jin Hwan Ko, Hoon Choel Park, Minjun Kim

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

37 Scopus citations

Abstract

The aerodynamic characteristics of the Coleopteran beetle species Epilachna quadricollis, a species with flexible hind wings and stiff elytra (fore wings), are investigated in terms of hovering flight. The flapping wing kinematics of the Coleopteran insect are modeled through experimental observations with a digital high-speed camera and curve fitting from an ideal harmonic kinematics model. This model numerically simulates flight by estimating a cross section of the wing as a two-dimensional elliptical plane. There is currently no detailed study on the role of the elytron or how the elytron-hind wing interaction affects aerodynamic performance. In the case of hovering flight, the relatively small vertical or horizontal forces generated by the elytron suggest that the elytron makes no significant contribution to aerodynamic force.

Original language	English
Pages (from-to)	485-495
Number of pages	11
Journal	Journal of Theoretical Biology
Volume	266
Issue number	4
DOIs	https://doi.org/10.1016/j.jtbi.2010.07.013
State	Published - Oct 2010
Externally published	Yes

Keywords

Elytron
Flapping kinematics
Insect hovering flight
Wing interaction

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10.1016/j.jtbi.2010.07.013

Cite this

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title = "Numerical investigation of the aerodynamic characteristics of a hovering Coleopteran insect",

abstract = "The aerodynamic characteristics of the Coleopteran beetle species Epilachna quadricollis, a species with flexible hind wings and stiff elytra (fore wings), are investigated in terms of hovering flight. The flapping wing kinematics of the Coleopteran insect are modeled through experimental observations with a digital high-speed camera and curve fitting from an ideal harmonic kinematics model. This model numerically simulates flight by estimating a cross section of the wing as a two-dimensional elliptical plane. There is currently no detailed study on the role of the elytron or how the elytron-hind wing interaction affects aerodynamic performance. In the case of hovering flight, the relatively small vertical or horizontal forces generated by the elytron suggest that the elytron makes no significant contribution to aerodynamic force.",

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T1 - Numerical investigation of the aerodynamic characteristics of a hovering Coleopteran insect

AU - Le, Tuyen Quang

AU - Byun, Doyoung

AU - Saputra,

AU - Ko, Jin Hwan

AU - Park, Hoon Choel

AU - Kim, Minjun

PY - 2010/10

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N2 - The aerodynamic characteristics of the Coleopteran beetle species Epilachna quadricollis, a species with flexible hind wings and stiff elytra (fore wings), are investigated in terms of hovering flight. The flapping wing kinematics of the Coleopteran insect are modeled through experimental observations with a digital high-speed camera and curve fitting from an ideal harmonic kinematics model. This model numerically simulates flight by estimating a cross section of the wing as a two-dimensional elliptical plane. There is currently no detailed study on the role of the elytron or how the elytron-hind wing interaction affects aerodynamic performance. In the case of hovering flight, the relatively small vertical or horizontal forces generated by the elytron suggest that the elytron makes no significant contribution to aerodynamic force.

AB - The aerodynamic characteristics of the Coleopteran beetle species Epilachna quadricollis, a species with flexible hind wings and stiff elytra (fore wings), are investigated in terms of hovering flight. The flapping wing kinematics of the Coleopteran insect are modeled through experimental observations with a digital high-speed camera and curve fitting from an ideal harmonic kinematics model. This model numerically simulates flight by estimating a cross section of the wing as a two-dimensional elliptical plane. There is currently no detailed study on the role of the elytron or how the elytron-hind wing interaction affects aerodynamic performance. In the case of hovering flight, the relatively small vertical or horizontal forces generated by the elytron suggest that the elytron makes no significant contribution to aerodynamic force.

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KW - Flapping kinematics

KW - Insect hovering flight

KW - Wing interaction

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Numerical investigation of the aerodynamic characteristics of a hovering Coleopteran insect

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Keywords

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