Helicopter Control Energy Reduction Using Moving Horizontal Tail Article Swipe

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Simultaneous perturbation stochastic approximation Control theory (sociology) Variance reduction Variance (accounting) Nonlinear system Perturbation (astronomy) Reduction (mathematics) Computer science Energy (signal processing) Control (management) Mathematical optimization Mathematics Physics Stochastic process Statistics Artificial intelligence Quantum mechanics Business Accounting Geometry

Tuğrul Oktay , Fırat Şal ·

YOU? · · 2015 · Open Access · · DOI: https://doi.org/10.1155/2015/523914 · OA: W1592821527

Helicopter moving horizontal tail (i.e., MHT) strategy is applied in order to save helicopter flight control system (i.e., FCS) energy. For this intention complex, physics‐based, control‐oriented nonlinear helicopter models are used. Equations of MHT are integrated into these models and they are together linearized around straight level flight condition. A specific variance constrained control strategy, namely, output variance constrained Control (i.e., OVC) is utilized for helicopter FCS. Control energy savings due to this MHT idea with respect to a conventional helicopter are calculated. Parameters of helicopter FCS and dimensions of MHT are simultaneously optimized using a stochastic optimization method, namely, simultaneous perturbation stochastic approximation (i.e., SPSA). In order to observe improvement in behaviors of classical controls closed loop analyses are done.