Nonlinear control design using Takagi-Sugeno fuzzy applied to under-actuated visual servo system

Jonnalagadda, Vimala Kumari; Elumalai, Vinodh Kumar; Singh, H. N.; Prasad, Amit

doi:10.1177/0142331220936584

Cited by 7 publications

(3 citation statements)

References 21 publications

(17 reference statements)

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“…The nonlinear dynamical equation of the ball balancer is obtained using the Euler–Lagrangian approach. For detailed overview on modelling of two DoF ball balancer, interested readers can refer to (Jonnalagadda et al, 2020)…”

Section: Application: Ball Balancermentioning

confidence: 99%

Nonlinear stabilization and reference tracking of visual servo system using TS fuzzy augmented iterative learning control: Experimental validation

Jonnalagadda¹,

Elumalai

2023

Transactions of the Institute of Measurement and Control

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To address the nonlinear stabilization problem and improve the tracking control feature of ball on plate system (BPS), this paper puts forward a novel Takagi Sugeno (TS) fuzzy control augmented with the current cycle feedback iterative learning control (CCF-ILC) scheme. According to Bode’s sensitivity integral, the performance of linear controllers is always a trade-off between reference tracking and robustness. Hence, to deal with the so-called ‘waterbed’ effect, this work exploits the capability of TS fuzzy to handle the nonlinear dynamics and synthesizes a learning control scheme based on current iteration error to capitalize the information rich error signal for enhancing the robustness and trajectory tracking features. The global asymptotic stability of the proposed TS fuzzy augmented ILC scheme is proved using the Lyapunov function and linear matrix inequalities (LMIs). Moreover, the monotonic convergence of ILC is presented based on the singular value condition. For identifying the rolling mass from the video stream, a background subtraction algorithm based on thresholding technique is implemented. Finally, the robustness and tracking features of the proposed scheme are evaluated on a two degrees of freedom (DoF) laboratory scale BPS system through hardware in loop (HIL) testing for three realistic test cases. The tracking performance quantified using the root mean square error (RMSE) and power spectral density plot corroborates that the proposed scheme can offer better setpoint tracking and robustness feature compared to state-of-the-art fuzzy and ILC control techniques implemented on BPS.

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Section: Application: Ball Balancermentioning

confidence: 99%

Nonlinear stabilization and reference tracking of visual servo system using TS fuzzy augmented iterative learning control: Experimental validation

Jonnalagadda¹,

Elumalai

2023

Transactions of the Institute of Measurement and Control

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“…With the development of control theory, some nonlinear control methods have been applied to switched reluctance motors to improve the control performance [21,22]. Fuzzy control has certain robustness to time-varying load and is suitable for controlling nonlinear, time-varying, lagging, and incomplete model systems [23,24]. Setting fuzzy control based on artificial experience has gradually developed into a mature theory and is widely used in motor control [25].…”

Section: Introductionmentioning

confidence: 99%

Torque Ripple Suppression of Switched Reluctance Motor Based on Fuzzy Indirect Instant Torque Control

2022

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High torque ripple limits the industrial application of switched reluctance motor (SRM) due to the deep magnetic saturation. This paper proposes a fuzzy indirect instant torque control (IITC) to suppress torque ripple. First, a fuzzy controller is developed to generate a compensation current according to the torque error. The input factor is then proposed and combined with artificial experience. Moreover, considering the relationship between current and electromagnetic torque, the output factor is appropriately designed according to the linearized inductance derivative. Finally, based on a three-phase 12/8 SRM, simulation and experimental results are provided to demonstrate the effectiveness of the proposed fuzzy IITC at torque ripple suppression. Compared with traditional proportion differentiation (PD) IITC, the fuzzy IITC proves its superiority in reducing torque ripple.

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“…Despite a great theoretical interest, fuzzy adaptive control usually requires online complex adaptation laws to deal with unknown parameters and nonlinearities, which may induce real-time difficulties. Since robot modeling has been well-established (Dawson et al, 2003), fuzzy model-based control approaches would be more appropriate for high-speed motion tracking of industrial manipulators as recently shown in Nguyen V-A, et al (2019) and Jonnalagadda et al (2020). Note that the existing fuzzy model-based approaches mostly rely on the well-known H ∞ specification to guarantee the tracking performance, which can lead to the following drawbacks, especially for complex industrial manipulators.…”

Section: Introductionmentioning

confidence: 99%

Fuzzy descriptor tracking control with guaranteed L∞ error-bound for robot manipulators

Nguyen

Dequidt

Nguyen

et al. 2020

Transactions of the Institute of Measurement and Control

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This paper is concerned with the nonlinear tracking control design for robot manipulators. In spite of the rich literature in the field, the problem has not yet been addressed adequately due to the lack of an effective control design. Using a descriptor fuzzy model-based framework, we propose a new approach to design a feedback-feedforward control scheme for robot manipulators in a general form. The goal is to guarantee a small level of an [Formula: see text] gain specification to improve the tracking performance while significantly reducing the numerical complexity for real-time implementation. Based on Lyapunov stability arguments, the control design is formulated as a convex optimization problem involving linear matrix inequalities. Numerical experiments performed with a high-fidelity manipulator benchmark model, embedded in the Simscape MultibodyTM environment, demonstrate the effectiveness of the proposed control solution over existing standard approaches.

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Nonlinear control design using Takagi-Sugeno fuzzy applied to under-actuated visual servo system

Cited by 7 publications

References 21 publications

Nonlinear stabilization and reference tracking of visual servo system using TS fuzzy augmented iterative learning control: Experimental validation

Nonlinear stabilization and reference tracking of visual servo system using TS fuzzy augmented iterative learning control: Experimental validation

Torque Ripple Suppression of Switched Reluctance Motor Based on Fuzzy Indirect Instant Torque Control

Fuzzy descriptor tracking control with guaranteed L∞ error-bound for robot manipulators

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