Open AccessDevelopment of Bio-Inspired Low-Noise Propeller for a Drone
Author(s) -
Ryusuke Noda,
Toshiyuki Nakata,
Teruaki Ikeda,
Di Chen,
Yuma Yoshinaga,
Kenta Ishibashi,
Chen Rao,
Hao Liu
Publication year - 2018
Publication title -
journal of robotics and mechatronics
Language(s) - English
Resource type - Journals
eISSN - 1883-8049
pISSN - 0915-3942
DOI - 10.20965/jrm.2018.p0337
Subject(s) - drone , propeller , trailing edge , noise (video) , aerodynamics , aerospace engineering , computer science , acoustics , enhanced data rates for gsm evolution , wing , marine engineering , leading edge , aeronautics , engineering , simulation , artificial intelligence , physics , structural engineering , genetics , image (mathematics) , biology
Multicopter-type unmanned aerial vehicles, called drones, have been attracting wide attention because of their immense potential for use in various missions such as surveillance, reconnaissance, and delivery service. For the application of drones, however, their noise will be a serious issue especially when operating in urban areas, and to our knowledge, it has not been resolved yet. In this study, inspired by the unique wing structures of insects and birds, we have developed new low-noise-type propellers for drones. The various bio-inspired attachments of drones such as the serrations at the leading edge, velvet-like surface, and fringes at the trailing edge were tested, and their acoustic and aerodynamic performances were evaluated experimentally and numerically. Our results indicate that an attachment at the trailing edge can suppress the noise level while maintaining the aerodynamic efficiency of the proposed propeller close to that of the basic propeller.
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