2011
DOI: 10.1088/1748-3182/6/4/045002
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Aerodynamics of a bio-inspired flexible flapping-wing micro air vehicle

Abstract: MAVs (micro air vehicles) with a maximal dimension of 15 cm and nominal flight speeds of around 10 m s⁻¹, operate in a Reynolds number regime of 10⁵ or lower, in which most natural flyers including insects, bats and birds fly. Furthermore, due to their light weight and low flight speed, the MAVs' flight characteristics are substantially affected by environmental factors such as wind gust. Like natural flyers, the wing structures of MAVs are often flexible and tend to deform during flight. Consequently, the aer… Show more

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Cited by 138 publications
(122 citation statements)
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“…These include in vivo and in situ measures of the contractile behaviour of muscle [12 -14]: high-speed, three-dimensional videography that can reveal details of wing motion [15,16]; X-ray videography of skeletal kinematics [16,17]; particle image velocimetry and computational fluid dynamics to reveal aerodynamics [18 -20]. Research into the biomechanics of avian flight, to some extent, moved away from an ecomorphological and comparative to a phylogenetic emphasis during the past 20 years, in part because of excitement (and funding opportunities) linked to the bioinspired design of autonomous flying robots [21,22]. Thus, detailed information on muscle contractile behaviour in relation to flight performance is often available only for selected model species such as the pigeon (Columba livia), only in rare cases within clades of closely related species [23,24], and formal synthesis of new insights into the phylogeny of birds with the form and function of their muscular systems is not presently feasible.…”
Section: Overviewmentioning
confidence: 99%
“…These include in vivo and in situ measures of the contractile behaviour of muscle [12 -14]: high-speed, three-dimensional videography that can reveal details of wing motion [15,16]; X-ray videography of skeletal kinematics [16,17]; particle image velocimetry and computational fluid dynamics to reveal aerodynamics [18 -20]. Research into the biomechanics of avian flight, to some extent, moved away from an ecomorphological and comparative to a phylogenetic emphasis during the past 20 years, in part because of excitement (and funding opportunities) linked to the bioinspired design of autonomous flying robots [21,22]. Thus, detailed information on muscle contractile behaviour in relation to flight performance is often available only for selected model species such as the pigeon (Columba livia), only in rare cases within clades of closely related species [23,24], and formal synthesis of new insights into the phylogeny of birds with the form and function of their muscular systems is not presently feasible.…”
Section: Overviewmentioning
confidence: 99%
“…eqs. [8][9][10][11][12][13][14][15][16][17][18][19] were found to converge in the static case, while during flight they vary to a limited extent, typically in conjunction with maneuvers. It can for instance be observed in fig.…”
Section: A Fusion Resultsmentioning
confidence: 94%
“…While significant insight is now available on both fronts, thanks to studies on insects and birds [1,2,3,4], and, more recently, increasingly on robotic test platforms [5,6,7,8,9,10,11,12,13,14,15], the high complexity of flapping flight still poses a considerable challenge to FWMAV development. Additionally, it is still considerably difficult to obtain realistic experimental data, particularly in free flight and in different flight regimes.…”
Section: Introductionmentioning
confidence: 99%
“…In recent years, various functional properties of dragonfly wings have gradually been reported by scholars all over the world, making it an important biological model of bionics [24][25][26][27][28][29].…”
Section: Insectsmentioning
confidence: 99%