Adaptive robust control of fractional-order swarm systems in the presence of model uncertainties and external disturbances

This article proposes a computationally efficient adaptive robust control scheme for a quad-rotor with cable-suspended payloads. Motion of payload introduces unknown disturbances that affect the performance of the quad-rotor controlled with conventional schemes, thus novel adaptive robust controllers with both integer- and fractional-order dynamics are proposed for the trajectory tracking of quad-rotor with cable-suspended payload. The disturbances acting on quad-rotor due to the payload motion are estimated by utilizing adaptive laws derived from integer- and fractional-order Lyapunov functions. The stability of the proposed control systems is guaranteed using integer- and fractional-order Lyapunov theorems. Overall, three variants of the control schemes, namely adaptive fractional-order sliding mode (AFSMC), adaptive sliding mode (ASMC), and classical Sliding mode controllers (SMC)s) are tested using processor in the loop experiments, and based on the two performance indicators, namely robustness and computational resource utilization, the best control scheme is evaluated. From the results presented, it is verified that ASMC scheme exhibits comparable robustness as of SMC and AFSMC, while it utilizes less sources as compared to AFSMC.

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A note on “Fractional-order adaptive backstepping control of robotic manipulators in the presence of model uncertainties and external disturbances”

Journal of the Brazilian Society of Mechanical Sciences and Engineering ◽

10.1007/s40430-021-03236-6 ◽

2021 ◽

Vol 43 (12) ◽

Author(s):

Alireza Izadbakhsh ◽

Saeed Khorashadizadeh ◽

Nazila Nikdel

Keyword(s):

Fractional Order ◽

Robotic Manipulators ◽

Backstepping Control ◽

Adaptive Backstepping ◽

Model Uncertainties ◽

External Disturbances ◽

Adaptive Backstepping Control

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Adaptive Robust Control Design for Robot Manipulators Based on Online Estimation of the Lumped Time-Varying Model Uncertainties

Adaptive Control for Robotic Manipulators ◽

10.1201/9781315166056-16 ◽

2016 ◽

pp. 374-400

Author(s):

Meysar Ƶeinali ◽

Ebrahim Esmailzadeh

Keyword(s):

Robust Control ◽

Robot Manipulators ◽

Control Design ◽

Adaptive Robust Control ◽

Time Varying ◽

Model Uncertainties ◽

Online Estimation ◽

Robust Control Design

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The Robust Control and Synchronization of a Class of Fractional-Order Chaotic Systems with External Disturbances via a Single Output

Complexity ◽

10.1155/2018/1984348 ◽

2018 ◽

Vol 2018 ◽

pp. 1-8 ◽

Cited By ~ 3

Author(s):

Runzi Luo ◽

Haipeng Su

Keyword(s):

Robust Control ◽

Fractional Order ◽

Chaos Control ◽

Chaotic Systems ◽

Sufficient Conditions ◽

External Disturbances ◽

Numerical Examples ◽

Single Output ◽

Lorenz Chaotic System ◽

Control And Synchronization

This paper investigates the stabilization and synchronization of a class of fractional-order chaotic systems which are affected by external disturbances. The chaotic systems are assumed that only a single output can be used to design the controller. In order to design the proper controller, some observer systems are proposed. By using the observer systems some sufficient conditions for achieving chaos control and synchronization of fractional-order chaotic systems are derived. Numerical examples are presented by taking the fractional-order generalized Lorenz chaotic system as an example to show the feasibility and validity of the proposed method.

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Finite-time stabilization of fractional-order systems with model uncertainties and external disturbances

The 26th Chinese Control and Decision Conference (2014 CCDC) ◽

10.1109/ccdc.2014.6852256 ◽

2014 ◽

Author(s):

Xiaomin Tian ◽

Shumin Fei ◽

Lin Chai

Keyword(s):

Fractional Order ◽

Finite Time ◽

Fractional Order Systems ◽

Model Uncertainties ◽

External Disturbances ◽

Finite Time Stabilization

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Robust Control of a Closed-Loop Identified System with Parametric/Model Uncertainties and External Disturbances

2010 International Conference on Intelligent Systems, Modelling and Simulation ◽

10.1109/isms.2010.57 ◽

2010 ◽

Cited By ~ 4

Author(s):

R. Doraiswami ◽

Lahouari Cheded ◽

Haris M. Khalid ◽

Qadeer Ahmed ◽

Amar Khoukhi

Keyword(s):

Robust Control ◽

Closed Loop ◽

Parametric Model ◽

Model Uncertainties ◽

External Disturbances

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Adaptive robust control of fractional-order systems with matched and mismatched disturbances

Mathematics and Computers in Simulation ◽

10.1016/j.matcom.2019.01.008 ◽

2019 ◽

Vol 162 ◽

pp. 85-96 ◽

Cited By ~ 4

Author(s):

Aldo Jonathan Muñoz-Vázquez ◽

Manuel Benjamín Ortiz-Moctezuma ◽

Anand Sánchez-Orta ◽

Vicente Parra-Vega

Keyword(s):

Robust Control ◽

Fractional Order ◽

Adaptive Robust Control ◽

Fractional Order Systems ◽

Mismatched Disturbances

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A New Scheme on Synchronization of Commensurate Fractional-Order Chaotic Systems Based on Lyapunov Equation

Journal of Control Science and Engineering ◽

10.1155/2016/5975491 ◽

2016 ◽

Vol 2016 ◽

pp. 1-8

Author(s):

Hua Wang ◽

Hang-Feng Liang ◽

Peng Zan ◽

Zhong-Hua Miao

Keyword(s):

Numerical Simulations ◽

Fractional Order ◽

Chaos Synchronization ◽

Chaotic Systems ◽

Lyapunov Equation ◽

Practical Method ◽

Fractional Order Systems ◽

Model Uncertainties ◽

External Disturbances ◽

Zero Items

This paper proposes a new fractional-order approach for synchronization of a class of fractional-order chaotic systems in the presence of model uncertainties and external disturbances. A simple but practical method to synchronize many familiar fractional-order chaotic systems has been put forward. A new theorem is proposed for a class of cascade fractional-order systems and it is applied in chaos synchronization. Combined with the fact that the states of the fractional chaotic systems are bounded, many coupled items can be taken as zero items. Then, the whole system can be simplified greatly and a simpler controller can be derived. Finally, the validity of the presented scheme is illustrated by numerical simulations of the fractional-order unified system.

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Adaptive robust control of coupled attitude and orbit for spacecraft with model uncertainties

Aircraft Engineering and Aerospace Technology ◽

10.1108/aeat-07-2016-0113 ◽

2018 ◽

Vol 90 (1) ◽

pp. 186-195

Author(s):

Jun Sun ◽

Xiande Wu ◽

Shijie Zhang ◽

Fengzhi Guo ◽

Ting Song

Keyword(s):

Design Methodology ◽

Adaptive Robust Control ◽

Dual Quaternion ◽

Model Uncertainties ◽

Robust Controller ◽

External Disturbances ◽

Content Type ◽

Orbit Control ◽

Rigid Spacecraft ◽

Simulation Results

Purpose The purpose of this paper is to propose an adaptive robust controller for coupled attitude and orbit control of rigid spacecraft based on dual quaternion in the presence of external disturbances and model uncertainties. Design/methodology/approach First, based on dual quaternion, a theoretical model of the relative motion for rigid spacecraft is introduced. Then, an adaptive robust controller which can realize coordinated control of attitude and orbit is designed in the existence of external disturbances and model uncertainties. Findings This paper takes advantage of the Lyapunov function which can guarantee the asymptotic stabilization of the whole system in the existence of parameters uncertainties. Simulation results show that the proposed controller is feasible and effective. Originality/value This paper proposes a coupled attitude and orbit adaptive robust controller based on dual quaternion. Simulation results demonstrate that the proposed controller can achieve higher control performance in the presence of parameters uncertainties.

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