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A Generalized Index for the Assessment of Helicopter Pilot Vibration Exposure

Aykut Tamer, Andrea Zanoni, Alessandro Cocco, Pierangelo Masarati

2021Vibration10 citationsDOIOpen Access PDF

Abstract

Helicopters are known to exhibit higher vibratory levels compared to fixed-wing aircraft. The consequences of vibrations depend on the affected helicopter component or subject. Specifically, pilots are in contact with several parts of the helicopter; vibrations can spoil the pilot-vehicle interaction. To evaluate the effects of vibration exposure on pilots, comfort levels resulting from whole-body vibration are computed. However, specific body parts and organs, e.g., hands, feet, and eyes are also adversely affected, with undesirable effects on piloting quality. Therefore, a detailed assessment is necessary for a more accurate estimation of pilot vibration exposure when comparing different configurations, tracking changes during design, and determining the safety of the flight envelope. A generalized assessment is presented by considering vibrations at the seat surface, hand-grip of controls, eyes, and feet. The suggested vibration measure includes comfort, handling, feet-contact, and vision in a single formulation. It is illustrated by coupling a high-fidelity biodynamic model of the pilot to a helicopter aeroservoelastic model in a comprehensive simulation environment. Using appropriate modeling techniques, vibration exposure of helicopter pilots could be evaluated during all stages of design, to achieve a more comfortable and safer flying environment.

Topics & Concepts

VibrationEnvelope (radar)FidelityEngineeringSimulationFlight envelopeAutomotive engineeringComputer scienceAcousticsAerospace engineeringRadarAerodynamicsPhysicsElectrical engineeringEffects of Vibration on HealthVehicle Noise and Vibration ControlErgonomics and Musculoskeletal Disorders
A Generalized Index for the Assessment of Helicopter Pilot Vibration Exposure | Litcius