Litcius/Paper detail

Adaptive Nonlinear Control For Perching of a Bioinspired Ornithopter

F. J. Maldonado, José Ángel Acosta, J. Tormo-Barbero, Pedro Grau, M.M. Guzmán, Anı́bal Ollero

202030 citationsDOIOpen Access PDF

Abstract

This work presents a model-free nonlinear controller for an ornithopter prototype with bioinspired wings and tail. The size and power requirements have been thought to allocate a customized autopilot on board. To assess the functionality and performance of the full mechatronic design, a controller has been designed and implemented to execute a prescribed perching 2D trajectory. Although functional, its 'handmade' nature forces many imperfections that cause uncertainty that hinder its control. Therefore, the controller is based on adaptive backstepping and does not require any knowledge of the aerodynamics. The controller is able to follow a given reference in flight path angle by actuating only on the tail deflection. A novel space-dependent nonlinear guidance law is also provided to prescribe the perching trajectory. Mechatronics, guidance and control system performance is validated by conducting indoor flight tests.

Topics & Concepts

BacksteppingAutopilotControl theory (sociology)MechatronicsControl engineeringNonlinear systemTrajectoryAerodynamicsController (irrigation)Computer scienceRobust controlEngineeringAdaptive controlControl systemAerospace engineeringControl (management)Artificial intelligencePhysicsQuantum mechanicsAstronomyBiologyElectrical engineeringAgronomyBiomimetic flight and propulsion mechanismsAerospace Engineering and Energy SystemsPhysiological and biochemical adaptations
Adaptive Nonlinear Control For Perching of a Bioinspired Ornithopter | Litcius