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A trim problem formulation for maximum control authority using the Attainable Moment Set geometry

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A trim problem formulation for maximum control authority using the Attainable Moment Set geometry

Open access

Samenvatting

This paper presents a generic trim problem formulation, in the form of a constrained optimization problem, which employs
forces and moments due to the aircraft control surfaces as decision variables. The geometry of the Attainable Moment Set
(AMS), i.e. the set of all control forces and moments attainable by the control surfaces, is used to defne linear equality and
inequality constraints for the control forces decision variables. Trim control forces and moments are mapped to control surface
defections at every solver iteration through a linear programming formulation of the direct Control Allocation algorithm.
The methodology is applied to an innovative box-wing aircraft confguration with redundant control surfaces, which can
partially decouple lift and pitch control, and allow direct lift control. Novel trim applications are presented to maximize
control authority about the lift and pitch axes, and a “balanced” control authority. The latter can be intended as equivalent
to the classic concept of minimum control efort. Control authority is defned on the basis of control forces and moments,
and interpreted geometrically as a distance within the AMS. Results show that the method is able to capitalize on the angle
of attack or the throttle setting to obtain the control surfaces defections which maximize control authority in the assigned
direction. More conventional trim applications for minimum total drag and for assigned angle of elevation are also explored

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Trefwoorden
OrganisatieMinisterie van Defensie - NLDA
AfdelingFaculteit Militaire Wetenschappen
LectoraatMilitair Technische Wetenschappen
Gepubliceerd inCEAS Aeronautical Journal Vol. 13, Pagina's: 251-266
Jaar2021
TypeArtikel
DOI10.1007/s13272-021-00560-4
TaalEngels

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