Inertial attitude control of a bat-like morphing-wing air vehicle

Colorado, Julián; Barrientos, Antonio; Rossi, Cláudio; Parra, Carlos

doi:10.1088/1748-3182/8/1/016001

Cited by 18 publications

(16 citation statements)

References 32 publications

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“…However, there is no information regarding the quality of the constructed regulator there. The control system, where the ratio controller is applied based on the reverse step algorithm and the desired function of angular accelerations, is used in a micro-machine like a bat, is presented in [11]. The gradient (steepest descent) approach is used in the control system of UAV [12]- [14].…”

Section: Introductionmentioning

confidence: 99%

Stabilizing the spatial position of a quadrotor by the backstepping procedure

Kucherov

Kozub²,

Sushchenko

et al. 2021

IJEECS

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<div>The paper considers the problem of synthesizing a control law that stabilizes the spatial position of an airborne object. The control object is a quadrotor with nonlinear dynamics. To solve the stabilization problem, a mathematical model of the quadrotor has been developed, taking into account its positionin the Cartesian and Euler coordinate systems. The new control law has been synthesized using the backstepping procedure. This control law is based on the Lyapunov-type stabilization criterion. New results analysis of the quadrotor dynamics, where has been showing the dependence of the control accuracy on the parameter of the stabilization criterion also presented. An algorithm for the directed search of the procedure parameter also has been proposed. It ensures the desired quality of the transient process. Simulation results confirming the results of the oretical research have been presented as well.</div>

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Section: Introductionmentioning

confidence: 99%

Stabilizing the spatial position of a quadrotor by the backstepping procedure

Kucherov

Kozub²,

Sushchenko

et al. 2021

IJEECS

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“…The use of softwares and use of control models are also shown in previous works. Colorado, J. et. al.…”

Section: Introductionmentioning

confidence: 99%

Morphing wing models analysis and synthesis for the sustainable aeronautics industry

Marcelino

Cruz-Gómez

Mejía-Pérez

et al. 2021

JRE

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The morphing type wings aim is to improve their aerodynamic performance in each flight condition as a bird would do it, this improvement is obtained by modifying its shape through intelligent mechanisms. Optimizing and dynamically adapting the shape of the wings to various flight conditions, leads to many unexplored possibilities for improvement that have been identified beyond current model test demonstrations. This research aimed to analyze the most prominent examples of morphing concepts in models of previous wing experimentation. Morphing concepts have certain limitations on a large scale, however some consortia have chosen to investigate it, in full-scale models. In this work, a mixed type methodology is presented covering qualitative and quantitative research studies on morphing-type wings. Finally, it is mentioned the importance of continuing to investigate these models and it is considered that the implementation of real models will aid to optimize the conditions leading to sustainable development models.

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“…The finitetime robust control was introduced to guarantee the flight stability instead of the traditional asymptotic stability. Simulation results showed that the proposed approach was effective for the morphing flight and achieved a proper trade-off between the control performance and elevator deflections.In the domain of folding wings, Colorado et al[111] proposed an attitude controller named backstepping with desired angular acceleration function as shown inFigure 11. Simulations and windtunnel experimental results showed an increase of about 23% in net body force production during the wingbeat cycle.…”

mentioning

confidence: 99%

A review of modelling and analysis of morphing wings

Zhao

Ronch

et al. 2018

Progress in Aerospace Sciences

231

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Morphing wings have a large potential to improve the overall aircraft performances, in a way like natural flyers do. By adapting or optimising dynamically the shape to various flight conditions, there are yet many unexplored opportunities beyond current proof-of-concept demonstrations. This review discusses the most prominent examples of morphing concepts with applications to two and threedimensional wing models. Methods and tools commonly deployed for the design and analysis of these concepts are discussed, ranging from structural to aerodynamic analyses, and from control to optimisation aspects. Throughout the review process, it became apparent that the adoption of morphing concepts for routine use on aerial vehicles is still scarce, and some reasons holding back their integration for industrial use are given. Finally, promising concepts for future use are identified.

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Inertial attitude control of a bat-like morphing-wing air vehicle

Cited by 18 publications

References 32 publications

Stabilizing the spatial position of a quadrotor by the backstepping procedure

Stabilizing the spatial position of a quadrotor by the backstepping procedure

Morphing wing models analysis and synthesis for the sustainable aeronautics industry

A review of modelling and analysis of morphing wings

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