Prediction-based psychoacoustic analysis of multirotor noise under gusty wind conditions.

Autor: Ko, Jeongwoo, Kim, Younghoon, Jeong, Jaeheon, Lee, Soogab
Předmět:
Zdroj: Journal of the Acoustical Society of America; Nov2023, Vol. 154 Issue 5, p3004-3018, 15p
Abstrakt: This study presents a comprehensive numerical framework for auralizing multirotor noise during complex maneuvers, incorporating rotor tonal and broadband noise prediction, synthesis, and psychoacoustic analysis. Validation studies for various flight scenarios, including single rotors and quadrotors, confirm the capability of this framework in the prediction-based psychoacoustic analysis of multirotor configurations. The primary focus of this research is to assess the flyover and takeoff noise of multirotors under diverse operating conditions. When tracking the mission profile under gusty wind conditions, the multirotor noise is characterized by frequency and amplitude modulations induced by rotational speed control for each rotor. A high-resolution time-frequency analysis is conducted for the tonal noise to highlight these modulation characteristics. Additionally, the prediction-based psychoacoustic analysis is performed for cross- and plus-type quadrotor configurations to clarify the effects of gusty wind profiles and flight control. The results demonstrate that variations in the rotational speed of each rotor, influenced by mission profiles and gusty wind conditions, contribute to the distinct acoustic characteristics of multirotor configurations in both physical and psychological aspects. The synthesized noise time signal and modulation characteristics provide valuable insights into the impact of operational environments on psychoacoustic metrics and annoyance. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index