Flight mode change with wing phase relationship of dragonfly-type flight

Hidetoshi Takahashi; Hiroto Tanaka; Kiyoshi Matsumoto; Isao Shimoyama

doi:10.1299/kikaib.76.768_1199

Flight mode change with wing phase relationship of dragonfly-type flight

Hidetoshi Takahashi, Hiroto Tanaka, Kiyoshi Matsumoto, Isao Shimoyama

研究成果: Article › 査読

抄録

In this research, Dragonfly-type Ornithopers (DTOs) were developed to reveal the effect of the phase relationship between forewings and hindwings on flight performance. The DTO has high aspect four wings. The Reynolds number of the ornithopter is the same order as that of real dragonflies (10³ - 10⁴). The DTO's phase relationship ranges from 0° to 315° with 45° intervals. Flights of DTOs with various phase relationships were recorded with a high speed video camera, and their motions were analyzed. In the stable flight, the flight speed varied depending on the phase relationship. We also visualized the airflow around the wings in a wind tunnel. It was revealed that there were suitable phase relationships for accelerating flight (45°), low speed flight (180°) and high speed flight (270°, 315°). This relationship between the flight mode and the phase relationship was in good agreement with that of dragonflies.

本文言語	English
ページ（範囲）	1199-1205
ページ数	7
ジャーナル	Nihon Kikai Gakkai Ronbunshu, B Hen/Transactions of the Japan Society of Mechanical Engineers, Part B
巻	76
号	768
DOI	https://doi.org/10.1299/kikaib.76.768_1199
出版ステータス	Published - 2010 8
外部発表	はい

ASJC Scopus subject areas

Condensed Matter Physics
Mechanical Engineering

文献へのアクセス

10.1299/kikaib.76.768_1199

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引用スタイル

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title = "Flight mode change with wing phase relationship of dragonfly-type flight",

abstract = "In this research, Dragonfly-type Ornithopers (DTOs) were developed to reveal the effect of the phase relationship between forewings and hindwings on flight performance. The DTO has high aspect four wings. The Reynolds number of the ornithopter is the same order as that of real dragonflies (103 - 104). The DTO's phase relationship ranges from 0° to 315° with 45° intervals. Flights of DTOs with various phase relationships were recorded with a high speed video camera, and their motions were analyzed. In the stable flight, the flight speed varied depending on the phase relationship. We also visualized the airflow around the wings in a wind tunnel. It was revealed that there were suitable phase relationships for accelerating flight (45°), low speed flight (180°) and high speed flight (270°, 315°). This relationship between the flight mode and the phase relationship was in good agreement with that of dragonflies.",

keywords = "Bio-Fluid mechanics, Biomechanics, Dragonfly, Flapping flight, Ornithopter, Phase relationship, Unsteady flow",

author = "Hidetoshi Takahashi and Hiroto Tanaka and Kiyoshi Matsumoto and Isao Shimoyama",

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AU - Tanaka, Hiroto

AU - Matsumoto, Kiyoshi

AU - Shimoyama, Isao

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N2 - In this research, Dragonfly-type Ornithopers (DTOs) were developed to reveal the effect of the phase relationship between forewings and hindwings on flight performance. The DTO has high aspect four wings. The Reynolds number of the ornithopter is the same order as that of real dragonflies (103 - 104). The DTO's phase relationship ranges from 0° to 315° with 45° intervals. Flights of DTOs with various phase relationships were recorded with a high speed video camera, and their motions were analyzed. In the stable flight, the flight speed varied depending on the phase relationship. We also visualized the airflow around the wings in a wind tunnel. It was revealed that there were suitable phase relationships for accelerating flight (45°), low speed flight (180°) and high speed flight (270°, 315°). This relationship between the flight mode and the phase relationship was in good agreement with that of dragonflies.

AB - In this research, Dragonfly-type Ornithopers (DTOs) were developed to reveal the effect of the phase relationship between forewings and hindwings on flight performance. The DTO has high aspect four wings. The Reynolds number of the ornithopter is the same order as that of real dragonflies (103 - 104). The DTO's phase relationship ranges from 0° to 315° with 45° intervals. Flights of DTOs with various phase relationships were recorded with a high speed video camera, and their motions were analyzed. In the stable flight, the flight speed varied depending on the phase relationship. We also visualized the airflow around the wings in a wind tunnel. It was revealed that there were suitable phase relationships for accelerating flight (45°), low speed flight (180°) and high speed flight (270°, 315°). This relationship between the flight mode and the phase relationship was in good agreement with that of dragonflies.

KW - Bio-Fluid mechanics

KW - Biomechanics

KW - Dragonfly

KW - Flapping flight

KW - Ornithopter

KW - Phase relationship

KW - Unsteady flow

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