A Proposed High-Gain Observer for a Class of Nonlinear Fractional-Order Systems

Etlili, Dorsaf; Khedher, Atef; Errachdi, Ayachi

doi:10.1155/2021/7844544

Cited by 6 publications

(4 citation statements)

References 29 publications

(31 reference statements)

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“…The fractional order controller adds the differential order, which can adjust the integral action slightly based on the integral gain adjustment. The integration order can ensure that the regulation time and overshoot of the system are within the index range [1] . The system's reaction time is faster when the integration order is small.…”

Section: Influence Of Integration Gain and Order On System Performancementioning

confidence: 99%

“…Through the above analysis, we know that based on the mediation of the integer order controller, the two new parameters of the fractional order controller, the integral order and the differential order, make the control function of the integral and differential links of the controller more flexible. The fractional controller is a kind of "rational" controller, which takes into account the stability and dynamic performance of the system, and improves the steady-state performance of the system at the same time [1] so that the control system can meet the requirements of the control index. Based on this, this paper proposes a fractional controller whose control form is as follows:…”

Section: Fractional Controllermentioning

confidence: 99%

See 1 more Smart Citation

Application of fractional controller in longitudinal control of aircraft

Liang

Liu²,

Liu³

2023

J. Phys.: Conf. Ser.

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With the continuous development of many engineering applications, sometimes, integer order controllers can not meet the requirements of the index. Because of the progress of computer simulation and mathematical theory, fractional control theory comes into being. Given the fractional control theory, this paper first introduces the fractional controller’s theoretical basis and description form and then proposes a fractional controller. The reinforcement of the fractional controller is analyzed in the frequency domain direction, and the fractional controller is applied to the pitch angle control of the aircraft pitch channel. The simulation results show that in the pitch angle control on the longitudinal channel of the aircraft, the proposed controller in the longitudinal control loop makes the aircraft’s pitch angle control significantly improved in control accuracy, dynamic process, and steady process compared with the traditional controller.

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Section: Influence Of Integration Gain and Order On System Performancementioning

confidence: 99%

Section: Fractional Controllermentioning

confidence: 99%

Application of fractional controller in longitudinal control of aircraft

Liang

Liu²,

Liu³

2023

J. Phys.: Conf. Ser.

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“…Dynamical systems that tend to converge toward mathematical attractors are highly sensitive for measuring a variety of physical characteristics, including light intensity, optical chaos and temperature [29]. In this direction, the Arneodo differential equations have been analyzed to explore complex frequency-dependent processes; comparative complexity to differential equations that describes strange attractors has been pointed out [30]. The Arneodo attractor is a chaotic system with spiral structure, it was chosen for the study presented in this report due to its dynamic behavior, transient chaos, fixed points and a control easier than others [31,32].…”

Section: Introductionmentioning

confidence: 99%

Spatially modulated ablation driven by chaotic attractors in human lung epithelial cancer cells

Martines-Arano,

Valdivia-Flores,

Castillo-Cruz

et al. 2024

Biomed. Phys. Eng. Express

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A significant modification in photoinduced energy transfer in cancer cells is reported by the assistance of a dynamic modulation of the beam size of laser irradiation. Human lung epithelial cancer cells in monolayer form were studied. In contrast to the quantum and thermal ablation effect promoted by a standard focused Gaussian beam, a spatially modulated beam can caused around 15% of decrease in the ablation threshold and formation of a ring-shaped distribution of the photothermal transfer effect. Optical irradiation was conducted in A549 cells by a 532 nm single-beam emerging from a Nd:YVO4 system. Ablation effects derived from spatially modulated convergent waves were controlled by an electrically focus-tunable lens. The proposed chaotic behavior of the spatial modulation followed an Arneodo chaotic oscillator. Fractional dynamic thermal transport was analyzed in order to describe photoenergy in propagation through the samples. Immediate applications of chaos theory for developing phototechnology devices driving biological functions or phototherapy treatments can be considered.

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“…Their utility spans diverse domains, including electricity, thermal systems, chemistry, signal processing, and control theory. These concepts find applications in various scenarios, including, but not limited to, asymptotic stability [2], finite-time stability [3,4], observer design [5], stabilization [6], and fault estimation [7]. The versatility of non-integer-order calculus renders it an invaluable tool for comprehending and analyzing the intricate behaviors exhibited by complex systems in scientific and engineering disciplines.…”

Section: Introductionmentioning

confidence: 99%

Stability Analysis of Finite Time for a Class of Nonlinear Time-Delay Fractional-Order Systems

Ben Makhlouf,

Mchiri,

Rhaima

2023

Fractal Fract

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In this study, we delve into the examination of Finite Time Stability (FTS) within a specific class of Fractional-Order Systems (FOS) with time delays. By applying a fixed-point theorem, we establish novel sufficient conditions to ensure FTS for time-delayed FOS within 1<σ<2. Moreover, we investigate the existence and uniqueness of global solutions for this particular system. To demonstrate the credibility of our results, we substantiate our findings through the presentation of two illustrative examples.

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A Proposed High-Gain Observer for a Class of Nonlinear Fractional-Order Systems

Cited by 6 publications

References 29 publications

Application of fractional controller in longitudinal control of aircraft

Application of fractional controller in longitudinal control of aircraft

Spatially modulated ablation driven by chaotic attractors in human lung epithelial cancer cells

Stability Analysis of Finite Time for a Class of Nonlinear Time-Delay Fractional-Order Systems

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