An integral approach for aircraft pitch control and instrumentation in a wind-tunnel

Villarreal-Valderrama, Francisco; Takano, Luis; Licéaga‐Castro, Eduardo; Hernández-Alcantara, Diana; Zambrano‐Robledo, Patricia del Carmen; Amézquita-Brooks, Luis

doi:10.1108/aeat-10-2019-0193

Cited by 4 publications

(2 citation statements)

References 41 publications

(46 reference statements)

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“…These kinds of sensors are normally able to deliver measurements with a mean error of under 1.5 deg/s and 0.5 m/s 2 for the gyroscope and accelerometer, respectively [22][23][24]. This configuration can yield a low level of angle measurement error in applications where no axial acceleration is present, so that the main source of measured acceleration is the gravity, as in the present application [25].…”

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confidence: 86%

Improved PVTOL Test Bench for the Study of Over-Actuated Tilt-Rotor Propulsion Systems

Amezquita-Brooks,

Maciel-Martínez,

Hernandez-Alcantara

2024

Machines

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In recent years, applications exploiting the advantages of tilt-rotors and other vectored thrust propulsion systems have become widespread, particularly in many novel Vertical Takeoff and Landing (VTOL) configurations. These propulsion systems can provide additional control authority, enabling more complex flight modes, but the resulting control systems can be challenging to design due to the mismatch between the vehicle degrees of freedom and physical input variables. These propulsion systems present both advantages and difficulties because they can exert the same overall forces and moments in many different propulsive configurations. This leads to the traditional non-uniqueness problem when using the inverse dynamics control allocation approach, which is the basis of many popular VTOL control algorithms. In this article, a modified Planar VTOL (PVTOL) test bench configuration, which considers an arbitrary number of co-linear tilting rotors, is introduced as a benchmark for the study of the control allocation problem. The resulting propulsion system is then modeled and linearized in a closed and compact form. This allows a simple and systematic derivation of many of the currently used control allocation approaches. According to the proposed PVTOL configuration, a two-rotor test bench is implemented experimentally and a decoupling control allocation strategy based on Singular Value Decomposition (SVD) analysis is developed. The proposed approach is compared with a traditional input mixer algorithm based on physical intuition. The results show that the SVD-based solution achieves better cross-coupling reduction and preserves the main properties of the physically derived approach. Finally, it is shown that the proposed PVTOL configuration is effective for studying the control allocation problem experimentally in a controlled environment and could serve as a benchmark for comparing different approaches.

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confidence: 86%

Improved PVTOL Test Bench for the Study of Over-Actuated Tilt-Rotor Propulsion Systems

Amezquita-Brooks,

Maciel-Martínez,

Hernandez-Alcantara

2024

Machines

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“…Loop shaping control A similar process is carried out for the LSC, which is proposed as a lead/lag compensator. The LSC in series with the plant is [27,28]:…”

Section: Control Designmentioning

confidence: 99%

Turbojet Thrust Augmentation through a Variable Exhaust Nozzle with Active Disturbance Rejection Control

Villarreal-Valderrama

Zambrano‐Robledo

Hernández-Alcantara

et al. 2021

Aerospace

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Turbojets require variable exhaust nozzles to fit high-demanding applications; however, few reports on nozzle control are available. The purpose of this paper is to investigate the possible advantages of an exhaust gas control through a variable exhaust nozzle. The control design method combines successful linear active disturbance rejection control (LADRC) capabilities with a loop shaping controller (LSC) to: (i) allow designing the closed-loop characteristics in terms of gain margin, phase margin and bandwidth, and (ii) increase the LSC disturbance rejection capabilities with an extended state observer. A representation of the nozzle dynamics is obtained from first principles and adapted to achieve a stream-velocity-based control loop. The results show that the resulting controller allows improving the expansion of the exhaust gas to the ambient pressure for the whole operating range of the turbojet, increasing the estimated thrust by 14.23% during the tests with experimental data.

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Formation control as a classical decentralized multivariable problem: Performance, robustness, cross-coupling and perturbation rejection

Amezquita-Brooks,

Takano De La Cruz,

Garcia-Salazar

et al. 2023

Journal of the Franklin Institute

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An integral approach for aircraft pitch control and instrumentation in a wind-tunnel

Cited by 4 publications

References 41 publications

Improved PVTOL Test Bench for the Study of Over-Actuated Tilt-Rotor Propulsion Systems

Improved PVTOL Test Bench for the Study of Over-Actuated Tilt-Rotor Propulsion Systems

Turbojet Thrust Augmentation through a Variable Exhaust Nozzle with Active Disturbance Rejection Control

Formation control as a classical decentralized multivariable problem: Performance, robustness, cross-coupling and perturbation rejection

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