The Australian research team used machine learning to design their propellers, then 3D printed several of the most promising prototypes for experimental acoustic testing at the Commonwealth Scientific and Industrial Research Organisation's specialized 'echo-free' chamber. Results now published in Aerospace Research Central show the prototypes made around 15dB less noise than commercially available propellers, validating the team's design methodology.
RMIT University aerospace engineer and lead researcher Dr. Abdulghani Mohamed said the impressive results were enabled by two key innovations—the numerical algorithms developed to design the propellers and their consideration of how noise is perceived in the human ear—as part of the testing. The team, which also included Melbourne-based aerospace company XROTOR, explored how various manipulations of propeller blade noise affected how it was perceived by the human ear.
The paper, "Quantifying modulation in the acoustic field of a small-scale rotor using bispectral analysis" is published in Aerospace Research Central.
https://techxplore.com/news/2021-03-successful-trial-quieter-drone-propellers.html
RMIT University aerospace engineer and lead researcher Dr. Abdulghani Mohamed said the impressive results were enabled by two key innovations—the numerical algorithms developed to design the propellers and their consideration of how noise is perceived in the human ear—as part of the testing. The team, which also included Melbourne-based aerospace company XROTOR, explored how various manipulations of propeller blade noise affected how it was perceived by the human ear.
The paper, "Quantifying modulation in the acoustic field of a small-scale rotor using bispectral analysis" is published in Aerospace Research Central.
https://techxplore.com/news/2021-03-successful-trial-quieter-drone-propellers.html
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