Understanding Takeoff and Landing Noise for Small Multirotor Vehicles

Rupak Chaudhary, Vítor T. Valente, Bhaskar Mukherjee, Andrew Jue, Kenneth S. Brentner, Eric Greenwood

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

Small multirotor vehicles, for example, designed for package delivery, are expected to operate in close proximity to populated areas, raising concerns about noise pollution. This study utilizes acoustic flight tests and computational modeling of an instrumented research hexacopter developed at Penn State to investigate noise generation during takeoff and landing maneuvers, considering varying flight path angles and vehicle speeds. Flight tests were conducted at Mid-State Regional Airport and corresponding predictions were made using the Penn State Noise Prediction System. The predicted vehicle states and noise levels are first validated against the flight test data. The validated model and flight test data are then utilized to study the noise emissions of the aircraft. Measurements and predictions of the acoustic characteristics of the vehicle are analyzed using conventional noise metrics, frequency content, and directivity features. Descent maneuvers are found to be noisier than climb maneuvers. Noise generation decreases with an increase in forward speed during both climb and descent and also with an increase in vertical speed during climb. However, during descent, noise generation increases with an increase in sink rate.

Original languageEnglish (US)
Title of host publicationVertical Flight Society 80th Annual Forum and Technology Display
PublisherVertical Flight Society
ISBN (Electronic)9781713897941
StatePublished - 2024
Event80th Annual Vertical Flight Society Forum and Technology Display, FORUM 2024 - Montreal, Canada
Duration: May 7 2024May 9 2024

Publication series

NameVertical Flight Society 80th Annual Forum and Technology Display

Conference

Conference80th Annual Vertical Flight Society Forum and Technology Display, FORUM 2024
Country/TerritoryCanada
CityMontreal
Period5/7/245/9/24

All Science Journal Classification (ASJC) codes

  • Aerospace Engineering
  • Control and Systems Engineering

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