TY - JOUR
T1 - Bio-inspired wing-folding mechanism of micro air vehicle (MAV)
AU - Jitsukawa, Tomohiro
AU - Adachi, Hisaya
AU - Abe, Takamichi
AU - Yamakawa, Hiroshi
AU - Umezu, Shinjiro
N1 - Funding Information:
This works was supported by the Precise Measurement Technology Promotion Foundation, Urakami Foundation for Food and Food Culture University, JSPS Kakenhi Grant Number 254202224, and Waseda University Grants Special Research Projects (Project Number 2014S-097).
Publisher Copyright:
© 2016, ISAROB.
PY - 2017/6/1
Y1 - 2017/6/1
N2 - Over the past few years, many researchers have shown an interest in micro air vehicle (MAV), since it can be used for rescue mission and investigation of danger zone which is difficult for human being to enter. In recent years, many researchers try to develop high-performance MAVs, but a little attention has been given to the wing-folding mechanism of wings. When the bird and the flying insects land, they usually fold their wings. If they do not fold their wings, their movement area is limited. In this paper, we focused on the artificial wing-folding mechanism. We designed a new artificial wing that has link mechanism. With the wing-folding mechanism, the wing span was reduced to 15%. In addition, we set feathers separately on the end of wings like those of real birds. The wings make thrust force by the change of the shape of the feathers. However, the wings could not produce enough lift force to lift it. Therefore, we have come to the conclusion that it is necessary to optimize the wings design to get stronger lift force by flapping.
AB - Over the past few years, many researchers have shown an interest in micro air vehicle (MAV), since it can be used for rescue mission and investigation of danger zone which is difficult for human being to enter. In recent years, many researchers try to develop high-performance MAVs, but a little attention has been given to the wing-folding mechanism of wings. When the bird and the flying insects land, they usually fold their wings. If they do not fold their wings, their movement area is limited. In this paper, we focused on the artificial wing-folding mechanism. We designed a new artificial wing that has link mechanism. With the wing-folding mechanism, the wing span was reduced to 15%. In addition, we set feathers separately on the end of wings like those of real birds. The wings make thrust force by the change of the shape of the feathers. However, the wings could not produce enough lift force to lift it. Therefore, we have come to the conclusion that it is necessary to optimize the wings design to get stronger lift force by flapping.
KW - Flapping mechanism
KW - MAV
KW - Wing-folding mechanism
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U2 - 10.1007/s10015-016-0339-9
DO - 10.1007/s10015-016-0339-9
M3 - Article
AN - SCOPUS:84996590484
SN - 1433-5298
VL - 22
SP - 203
EP - 208
JO - Artificial Life and Robotics
JF - Artificial Life and Robotics
IS - 2
ER -