J.L. Verboom scite author profile

J.L. Verboom

3Publications

77Citation Statements Received

58Citation Statements Given

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Affiliations

Delft University of Technology, Japan External Trade Organization

Publications

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Linear Aerodynamic Model Identification of a Flapping Wing MAV Based on Flight Test Data

Caetano

Visser²,

Croon³

et al. 2013

International Journal of Micro Air Vehicles

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This paper presents an approach to the system identification of the Delfly II Flapping Wing Micro Air Vehicle (FWMAV) using flight test data. It aims at providing simple FWMAV aerodynamic models that can be used in simulations as well as in nonlinear flight control systems. The undertaken methodology builds on normal aircraft system identification methods and extends these with techniques that are specific to FWMAV model identification. The entire aircraft model identification cycle is discussed covering the set-up and automatic execution of the flight test experiments, the aircraft states, the aerodynamic forces and moments' reconstruction, the aerodynamic model structure selection, the parameter estimation and finally, the model validation. In particular, a motion capturing facility was used to record the flapper's position in time and from there compute the states and aerodynamic forces and moments that acted on it, assuming flapaveraged dynamics and linear aerodynamic model structures. It is shown that the approach leads to aerodynamic models that can predict the aerodynamic forces with high accuracy. Despite less accurate, the predictions of the aerodynamic moments still follow the general trend of the measured moments. Dynamic simulations based on the identified aerodynamic models show flight trajectories that closely match the ground truth spanning a number of flapping cycles. Finally, the dimensional aerodynamic forces and moments' coefficients of two of the identified aerodynamic models are presented.

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Attitude and altitude estimation and control on board a Flapping Wing Micro Air Vehicle

Verboom

Tijmons

Wagter

et al. 2015

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The autonomous capabilities of light-weight Flapping Wing Micro Air Vehicles (FWMAVs) have much to gain from onboard state estimation and attitude control. In this article, we present the first FWMAV with robust onboard state estimation and attitude control. The tailed FWMAV DelFly II was used, with the main goal to achieve active stabilization in the (passively unstable) hover condition. The attitude is estimated using an Inertial Measurement Unit with a gyroscope, accelerometer and magnetometer and the altitude is estimated using a barometer. A major challenge lies in the disturbance of the accelerometer measurements by the flapping motion of the wings. We propose a mechanical damping mechanism and flapcycle based filtering to resolve this issue. The pitch estimates have a mean error of 1.5 • with respect to the ground-truth measurement from a motion capture system. Using the onboard pitch estimate we can control the attitude of the FWMAV in the forward flight regime with a 30% lower standard deviation than in a trimmed flight. With a different set of gains, the FWMAV is able to perform a hovering flight -showing that a tailed FWMAV has enough control authority for this task. In a fully autonomous hover experiment, the DelFly II stays within a sphere of 0.75 m radius.

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Determination of trim curves for a flapping-wing MAV

Armanini

Verboom

Croon

et al. 2014

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J.L. Verboom

Linear Aerodynamic Model Identification of a Flapping Wing MAV Based on Flight Test Data

Attitude and altitude estimation and control on board a Flapping Wing Micro Air Vehicle

Determination of trim curves for a flapping-wing MAV

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