A. Shakila Banu scite author profile

A. Shakila Banu

5Publications

0Citation Statements Received

2Citation Statements Given

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International Islamic University Malaysia

Publications

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Robust vibration control of flexible panel: modeling and simulation

Banu

Muthalif²

2017

WJE

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Purpose This paper aims to develop a robust controller to control vibration of a thin plate attached with two piezoelectric patches in the presence of uncertainties in the mass of the plate. The main goal of this study is to tackle dynamic perturbation that could lead to modelling error in flexible structures. The controller is designed to suppress first and second modal vibrations. Design/methodology/approach Out of various robust control strategies, μ-synthesis controller design algorithm has been used for active vibration control of a simply supported thin place excited and actuated using two piezoelectric patches. Parametric uncertainty in the system is taken into account so that the robust system will be achieved by maximizing the complex stability radius of the closed-loop system. Effectiveness of the designed controller is validated through robust stability and performance analysis. Findings Results obtained from numerical simulation indicate that implementation of the designed controller can effectively suppress the vibration of the system at the first and second modal frequencies by 98.5 and 88.4 per cent, respectively, despite the presence of structural uncertainties. The designed controller has also shown satisfactory results in terms of robustness and performance. Originality/value Although vibration control in designing any structural system has been an active topic for decades, Ordinary fixed controllers designed based on nominal parameters do not take into account the uncertainties present in and around the system and hence lose their effectiveness when subjected to uncertainties. This paper fulfills an identified need to design a robust control system that accommodates uncertainties.

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Estimating perturbation in eigenvalues for robust vibration controller design: analytical derivation and simulation

Banu

Muthalif

2015

IJESMS

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RGA Based Fractional Order PI Controller Design for Speed Control of IPMSM

Banu¹,

Wahidabanu

2014

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In this paper the synthesis of a rotational speed closed-loop control system based on a fractional-order proportional-integral (FOPI) controller is presented. In particular , it is proposed the use of the SCoMR-FOPI procedure as the controller tuning method for an unmanned aerial vehicle's propulsion unit. In this framework, both the Hermite-Biehler and Pontryagin theorems are used to predefine a stability region for the controller. Several simulations were conducted in order to try to answer the questions-is the FOPI controller good enough to be an alternative to more complex FOPID controllers? In what circumstances can it be advantageous over the ubiquitous PID? How robust this fractional-order controller is regarding the parametric uncertainty of considered propulsion unit model?

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Automatic Generation Control of Two Area Interconnected Thermal-Thermal Power System using APSO-PI Controller

Kamali¹,

Banu²

2016

Asia. Jour. Rese. Soci. Scie. and Human.

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Optimal Control based Composition Control of Bubblecap Distillation Column using Predictive Control Methodologies

Banu¹,

Chitra²,

Manimaran³

2016

Asia. Jour. Rese. Soci. Scie. and Human.

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A. Shakila Banu

Robust vibration control of flexible panel: modeling and simulation

Estimating perturbation in eigenvalues for robust vibration controller design: analytical derivation and simulation

RGA Based Fractional Order PI Controller Design for Speed Control of IPMSM

Automatic Generation Control of Two Area Interconnected Thermal-Thermal Power System using APSO-PI Controller

Optimal Control based Composition Control of Bubblecap Distillation Column using Predictive Control Methodologies

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