Robust Control for Non-Minimum Phase Systems with Actuator Faults: Application to Aircraft Longitudinal Flight Control

Elkhatem, Aisha Sir; Engin, Seref Naci; Pasha, Amjad Ali; Rahman, Mustafa Mutiur; Pillai, S. Nadaraja

doi:10.3390/app112411705

Cited by 7 publications

(2 citation statements)

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“…Speed control is achieved through the utilization of genetic algorithms, which are used to identify the best PID gains and overcome the limitations of traditional PID tuning [24]. Furthermore, particle swarm optimization (PSO) algorithms have been investigated for tuning PID parameters, including the fractional order ones, which are effectively utilized for position and attitude tracking control of unmanned aerial vehicles [25,26]. The PSO optimization approach has been shown to be superior to traditional tuning methods in terms of control performance [27].…”

Section: Introductionmentioning

confidence: 99%

Active Control Experiments on a Smart Robotic Glass with End-Point Control for Parkinson’s Patients

Ayana

Kılıç

YaŞar

et al. 2023

Applied Bionics and Biomechanics

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This paper describes a robotic system that uses an actively controlled glass to help patients with tremors. End-point control is proposed for the upper part of a robotic device that becomes active in response to motion changes or vibrations of its holder. The device mechanisms, hardware, software, and sensory system are all integrated, presenting a novel robotic glass design. The control system consists of two degrees of freedom proportional–integral velocity regulators for direct current motors. These regulators are designed, implemented, and tuned to keep the robotic glass stable against changes in its position. In realizing direct current motor control, it is essential to take system constraints into consideration to develop regulators that can handle the nonlinear Coulomb friction and avoid operating in the saturation zone. This is crucial when designing, tuning, and implementing regulators for real-time applications. The computer simulations of the system, which involved developing and running all the control algorithms for real-time applications, are carried out in Matlab/Simulink. The proposed designs are validated by comparing system simulations to real-time physical experiments. The recorded results confirmed the outstanding performance of the proposed experimental platform mechanisms and the accurate control tracking, which provides fast and precise control responses to meet the high requirements of a fast end-point control application.

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Section: Introductionmentioning

confidence: 99%

Active Control Experiments on a Smart Robotic Glass with End-Point Control for Parkinson’s Patients

Ayana

Kılıç

YaŞar

et al. 2023

Applied Bionics and Biomechanics

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“…The control of UAV platforms that exhibit non-minimum phase characteristics in their models is also addressed by the research community. Elkhatem et al [12] explored a robust control approach (combining fractionalorder and LQR) for a fixed-wing UAV platform with NMP zeros, also considering actuator faults. Both the UAV platform and the control approach are different from those proposed in this paper.…”

Section: Introductionmentioning

confidence: 99%

Simple Internal Model-Based Robust Control Design for a Non-Minimum Phase Unmanned Aerial Vehicle

Zolotas

2023

Machines

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Robust control has been successful in enabling flight stability and performance for UAVs. This paper presents a simple explainable robust control design for UAV platforms with non-minimum phase (NMP) zero characteristics in their model. The paper contributes to economic (simple) robust control design by addressing the NMP model’s characteristics via Internal Model Control (IMC) and its impact on the UAV pitch response performance. The proposed design is compared with a Parallel Feedback Control Design (PFCD) scheme for the same vehicle platform, for fair comparison. Simulation results illustrate the achievement of the proposed control designs for the UAV platform; only the pitch control is addressed. A by-product of this work is the interpretation of different ways of manipulating the non-minimum phase plant model, so-called ‘modelling for control’, to enable the simple controller design. The work in this paper underpins the simplicity and robustness of the IMC technique for the NMP UAV platform, which further supports the explainability of the control structure relative to performance.

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Performance Comparison of Robust PID and FOPID for an Inverse Response Process Model

Meneses,

Gutiérrez,

Arrieta

et al. 2024

IFAC-PapersOnLine

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Robust Control for Non-Minimum Phase Systems with Actuator Faults: Application to Aircraft Longitudinal Flight Control

Cited by 7 publications

References 50 publications

Active Control Experiments on a Smart Robotic Glass with End-Point Control for Parkinson’s Patients

Active Control Experiments on a Smart Robotic Glass with End-Point Control for Parkinson’s Patients

Simple Internal Model-Based Robust Control Design for a Non-Minimum Phase Unmanned Aerial Vehicle

Performance Comparison of Robust PID and FOPID for an Inverse Response Process Model

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