Search results for "Sliding Mode"

showing 10 items of 25 documents

Adaptive Fuzzy Super-Twisting Sliding Mode Control for Microgyroscope

2019

This paper proposes a novel adaptive fuzzy super-twisting sliding mode control scheme for microgyroscopes with unknown model uncertainties and external disturbances. Firstly, an adaptive algorithm is used to estimate the unknown parameters and angular velocity of microgyroscopes. Secondly, in order to improve the performance of the system and the superiority of the super-twisting algorithm, this paper utilizes the universal approximation characteristic of the fuzzy system to approach the gain of the super-twisting sliding mode controller and identify the gain of the controller online, realizing the adaptive adjustment of the controller parameters. Simulation results verify the superiority a…

0209 industrial biotechnologyMultidisciplinaryArticle SubjectGeneral Computer ScienceAdaptive algorithmComputer science020208 electrical & electronic engineeringMode (statistics)Angular velocity02 engineering and technologyFuzzy control systemSliding mode controlFuzzy logiclcsh:QA75.5-76.95020901 industrial engineering & automationControl theory0202 electrical engineering electronic engineering information engineeringlcsh:Electronic computers. Computer scienceComplexity
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Finite-Time Control for Attitude Tracking Maneuver of Rigid Satellite

2014

Published version of an article in the journal: Abstract and Applied Analysis. Also available from the publisher at: http://dx.doi.org/10.1155/2014/302982 Open Access The problem of finite-time control for attitude tracking maneuver of a rigid spacecraft is investigated. External disturbance, unknown inertia parameters are addressed. As stepping stone, a sliding mode controller is designed. It requires the upper bound of the lumped uncertainty including disturbance and inertia matrix. However, this upper bound may not be easily obtained. Therefore, an adaptive sliding mode control law is then proposed to release that drawback. Adaptive technique is applied to estimate that bound. It is prov…

Article Subjectbusiness.industrymedia_common.quotation_subjectApplied Mathematicslcsh:MathematicsTracking systemAngular velocityAnalysis; Applied MathematicsInertiaTracking (particle physics)lcsh:QA1-939Sliding mode controlUpper and lower boundsVDP::Mathematics and natural science: 400::Mathematics: 410::Analysis: 411Sylvester's law of inertiaControl theorybusinessAnalysisMathematicsmedia_commonAbstract and Applied Analysis
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Nonlinear Robust Control of a Quadratic Boost Converter in a Wide Operation Range, Based on Extended Linearization Method

2022

This paper proposes a control system for a quadratic boost DC/DC converter in a wide range of operations, based on an inner loop with a sliding mode controller, for reaching a desired equilibrium state, and an outer loop with integral-type controller, for assuring robustness against load and input voltage variations and converter parameter uncertainties. The sliding mode controller is designed with the extended linearization method and assures local asymptotic stability, whereas the integral controller is designed using classical frequency methods, and assures input–output stability. It is shown that the proposed controller also deals with the sudden changes in the nominal operating conditi…

Computer Networks and CommunicationsHardware and ArchitectureControl and Systems EngineeringSignal ProcessingExtended linearizationquadratic boost convertersliding mode controlrobustnessElectrical and Electronic Engineeringquadratic boost converter; sliding mode control; extended linearization; robustness
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A Novel Adaptive Sliding Mode Controller for a 2-DOF Elastic Robotic Arm

2022

Collaborative robots (or cobots) are robots that are capable of safely operating in a shared environment or interacting with humans. In recent years, cobots have become increasingly common. Compliant actuators are critical in the design of cobots. In real applications, this type of actuation system may be able to reduce the amount of damage caused by an unanticipated collision. As a result, elastic joints are expected to outperform stiff joints in complex situations. In this work, the control of a 2-DOF robot arm with elastic actuators is addressed by proposing a two-loop adaptive controller. For the outer control loop, an adaptive sliding mode controller (ASMC) is adopted to deal with unce…

Control and OptimizationArtificial Intelligenceadaptive sliding mode controller; model reference adaptive controller; elastic robot arm; roboticsMechanical EngineeringVDP::Teknologi: 500::Industri- og produktdesign: 640Robotics
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Load frequency regulation using observer based non-linear sliding mode control

2019

Abstract In this paper, the generalized extended state observer (GESO) and non-linear sliding mode control (SMC) are merged together to study the frequency deviation problem in multi-area power system. In study, the GESO is used not only for state and disturbance estimation but also for disturbance rejection of the system. The said observer ensures accurate estimation of the actual states leading to convergence of estimation error to zero. The non-linear SMC is used to increase the damping ratio of the system whenever, any perturbations occurs. The proposed observer based controller is compared with an existing two-layer active disturbance rejection control (ADRC) and also validated on larg…

Damping ratioObserver (quantum physics)Computer science020209 energy020208 electrical & electronic engineeringEnergy Engineering and Power Technology02 engineering and technologyFrequency deviationActive disturbance rejection controlSliding mode controlElectric power systemControl theory0202 electrical engineering electronic engineering information engineeringState observerElectrical and Electronic EngineeringInternational Journal of Electrical Power & Energy Systems
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Robust Active Disturbance Rejection Control of Induction Motor Systems Based on Additional Sliding-Mode Component

2017

This paper deals with motion control systems with induction motor, subject to severe requirements on both dynamics and steady-state behavior. The proposed control methodology could be viewed as an advancement of the standard field oriented control. It consists of two control loops, i.e., the rotor flux and the speed control loops, designed using the active disturbance rejection control method, with the aim to cope with both exogenous and endogenous disturbances, which are estimated by means of two linear extended state observers and then compensated. Moreover, with the aim of achieving total robustness, a sliding-mode based component is designed, in order to take into account disturbance es…

Electronic speed controlEngineeringrejection of disturbancesExtended state observer (ESO)rejection of disturbanceVector controlinduction motors (IMs)business.industry020209 energyControl engineering02 engineering and technologyMotion controlActive disturbance rejection controlSliding mode controlSettore ING-INF/04 - AutomaticaControl and Systems EngineeringRobustness (computer science)Control theory0202 electrical engineering electronic engineering information engineeringElectrical and Electronic EngineeringRobust controlbusinesssliding-mode (SM) controlstate feedbackInduction motor
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Nonlinear Control of a Pneumatic Muscle Actuator System

2001

Abstract The performance of a Pneumatic Muscle Actuator under three tracking control strategies is compared: robust backstepping, sliding-mode and gain scheduling. Robustness is assured for the three controllers in the presence of model uncertainties and external perturbations. Exponential stability is proved for the sliding-mode tracking controller, ultimate boundedness for the backstepping tracking controller and exponential stability for constant or slowly-varying reference signals for the gain scheduling controller. Computer simulations show a good performance for the tracking of a sine wave by the first two controllers, although the sliding-mode strategy yields a high-frequency switchi…

EngineeringSine waveGain schedulingExponential stabilityControl theoryRobustness (computer science)business.industryBacksteppingControl engineeringNonlinear controlbusinessSliding mode controlIFAC Proceedings Volumes
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Sliding mode torque control of an induction motor for automotive application with sliding mode flux observer

2016

In this paper, the performance of two control systems of induction motors for automotive applications were compared in order to highlight the differences in terms of response speed, robustness and noise immunity. The first system is realized through a field-oriented control with PI controllers, while the second system is realized through a field-oriented control with Sliding Mode Controllers. Both controls are designed to follow the torque references as required for the vehicles and are tested with typical load profiles of vehicles. It also designed a sliding mode observer flux.

EngineeringSliding mode controlNoise immunityRenewable Energy Sustainability and the Environmentbusiness.industry020209 energyIncution motorAutomotive industryEnergy Engineering and Power Technology02 engineering and technologySettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciField oriented controlFlux observerRobustness (computer science)Control theoryControl system0202 electrical engineering electronic engineering information engineeringTorqueState observerFlux observerbusinessInduction motor2016 IEEE International Conference on Renewable Energy Research and Applications (ICRERA)
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Dynamic performance enhancement of AC/DC PFC boost converters by means of MRAS observers

2015

Controlling a Power Factor Corrected (PFC) boost converter is not a trivial task, because the higher the dynamic performance, the higher is the input current distortion. On the other hand, recent applications of these converters require fast transients in response to disturbances, such as sudden variations of load power, reference voltage and input voltage. Better performance can be obtained adding a feedforward action to the traditional control scheme, using observers to estimate the input voltage and the output current. However, the actual improvement depends on the dynamic performance of the chosen observers. This paper aims at evaluating the applicability and the performance of differen…

EngineeringSwitched-mode power supplybusiness.industryBoost converterFeedforward controlFeed forwardPower factorSliding ModeConvertersObserverPower (physics)Settore ING-INF/04 - AutomaticaControl theoryFeedforward control.Boost converterElectronic engineeringModel Reference Adaptive SystemObserversbusinessPower Factor CorrectionMRASVoltage reference
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Observer-based sliding mode control for stabilization of a dynamic system with delayed output feedback

2013

Published version of an article in the journa: Mathematical Problems in Engineering. Also available from the publisher at: http://dx.doi.org/10.1155/2013/537414 Open Access This paper considers the sliding mode control problem for a kind of dynamic delay system. First by utilizing Lyapunov stability theory and a linear matrix inequality technique, an observer based on delayed output feedback is constructed. Then, an integral sliding surface is presented to realize the sliding mode control for the system with the more available stability condition. Finally, some numerical simulations are implemented to demonstrate the validity of the proposed control method.

Lyapunov stabilityOutput feedbackArticle SubjectGeneral Mathematicslcsh:MathematicsGeneral EngineeringLinear matrix inequalitylcsh:QA1-939Stability (probability)Sliding mode controlControl theorylcsh:TA1-2040State observerVDP::Matematikk og Naturvitenskap: 400::Matematikk: 410::Analyse: 411Observer basedlcsh:Engineering (General). Civil engineering (General)Control methodsMathematics
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