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Analysis of High-Fidelity Reduced-Order Linearized Time-Invariant Helicopter Models for Integrated Flight and On-Blade Control Applications

Autor(en): A.K. Padthe, P.P. Friedmann, M. Lopez, J.V.R. Prasad
Zusammenfassung: Linearized time-periodic models are extracted from a high fidelity comprehensive nonlinear helicopter model at a low-speed descending flight as well as a cruise condition. A Fourier expansion based model reduction method is used to generate linearized time-invariant models from the time-periodic system. The linearized models, intended for studies examining the interaction between on-blade control and the primary flight control system, are very large in size with a few thousand states each. Therefore, a truncation method based on Hankel singular values is used to reduce the size of the LTI models. The reduced-order LTI models are then verified against the nonlinear model by comparing the hub load responses to an open-loop flap deflection. However, on-blade control is usually implemented in closed-loop mode, therefore, the reduced-order LTI models are verified for closed-loop performance fidelity. The higher harmonic controller is used with the 2/rev-5/rev harmonic components of the flap deflection as the control input and vibratory hub loads are the output. Closed-loop performance of the full-order LTI model, reduced-order LTI model, and the nonlinear model is compared at both the low-speed descending flight and the cruise flight conditions. The flap deflection histories and the vibratory loads predicted using the full-order and the reduced-order LTI models agree very well at both flight conditions when the flap deflection is limited to be less than 2°. The results show that the reduced-order LTI models capture all the relevant dynamics and are suitable for studying closed-loop on-blade vibration control and its interactions with the primary flight control system, as long as the dynamic stall effects are not significant.
Veranstaltung: 41th European Rotorcraft Forum 2015
Medientyp: Conference Paper
Sprache: englisch
Veröffentlicht: DGLR-Bericht, 2016, 2016-01, 41st European Rotorcraft Forum 2015; S.-; 2016; Deutsche Gesellschaft für Luft- und Raumfahrt - Lilienthal-Oberth e.V., Bonn
Preis: NA
Stichworte zum Inhalt: aerodynamic stalling;aircraft control;controllers;deflection;feedback control;flapping;flaps (control surfaces);flight conditions;flight control;helicopters;loads (forces);low speed;nonlinearity;vibration damping;vibratory loads
Verfügbarkeit: Bestellbar
Veröffentlicht: 2016

Dieses Dokument ist Teil einer übergeordneten Publikation:
41st European Rotorcraft Forum 2015