Search results for "Magnetorheological damper"

showing 6 items of 6 documents

Semiactive Control Methodologies for Suspension Control With Magnetorheological Dampers

2012

Authors version of an article published in the journal: IEEE/ASME Transactions on Mechatronics. Also available from the publisher at: http://dx.doi.org/10.1109/TMECH.2011.2107331 Suspension systems are one of the most critical components of transportation vehicles. They are designed to provide comfort to the passengers to protect the chassis and the freight. Suspension systems are normally provided with dampers that mitigate these harmful and uncomfortable vibrations. In this paper, we explore two control methodologies (in time and frequency domain) used to design semiactive controllers for suspension systems that make use of magnetorheological dampers. These dampers are known because of th…

EngineeringChassisbackstepping magnetorheological (MR) damper quantitative feedback control semiactive control suspension controlNonlinear controlsuspension controlDamperQuantitative feedback theoryControl theoryMagnetorheological dampersmagnetorheological (MR) damperAutomòbils -- AmortidorsElectrical and Electronic EngineeringSuspension (vehicle)Amortidors magneto-reològicsquantitative feedback controlsemiactive controlbusiness.industryVDP::Technology: 500::Mechanical engineering: 570Linear systemBackstepping; magnetorheological (MR) damper; quantitative feedback control; semiactive control; suspension control; Control and Systems Engineering; Computer Science Applications1707 Computer Vision and Pattern Recognition; Electrical and Electronic EngineeringComputer Science Applications1707 Computer Vision and Pattern RecognitionControl engineeringComputer Science ApplicationsBacksteppingControl and Systems EngineeringBacksteppingMagnetorheological fluidbusinessIEEE/ASME Transactions on Mechatronics
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Heuristic and Backstepping Control Strategies for Semiactive Suspension in Automotive Systems Equipped with MR Dampers

2010

Abstract This paper deals with the problem of semiactive vibration reduction in a class of automotive systems. Most conventional suspensions use passive devices to absorb impacts and vibrations, which is generally difficult to adapt to the uncertain circumstances. Semiactive suspension techniques promise a solution to the above problem with some comparatively better features than active and passive suspension devices. In this work, the semiactive suspension with magnetorheological (MR) dampers is applied for the vibration attenuation. Both backstepping and heuristic control strategies are proposed. In the design of backstepping controller, the Dahl model of the MR damper is used to estimate…

EngineeringHeuristic (computer science)business.industryControl engineeringGeneral MedicineDamperVibrationControl theoryBacksteppingMagnetorheological fluidMagnetorheological damperSuspension (vehicle)Reduction (mathematics)businessIFAC Proceedings Volumes
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A mixed H<inf>2</inf>/H<inf>∞</inf>-based semiactive control for vibration mitigation in flexible structures

2009

In this paper, we address this problem through the design of a semiactive controller based on the mixed H 2 /H ∞ control theory. The vibrations caused by the seismic motions are mitigated by a semiactive damper installed in the bottom of the structure. It is meant by semiactive damper, a device that absorbs but cannot inject energy into the system. Sufficient conditions for the design of a desired control are given in terms of linear matrix inequalities (LMIs). A controller that guarantees asymptotic stability and a mixed H 2 /H ∞ performance is then developed. An algorithm is proposed to handle the semiactive nature of the actuator. The performance of the controller is experimentally evalu…

EngineeringShock absorberAutomatic controlControl theorybusiness.industryHybrid testingVibration controlStructural engineeringMagnetorheological damperbusinessActuatorDamperProceedings of the 48h IEEE Conference on Decision and Control (CDC) held jointly with 2009 28th Chinese Control Conference
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Semiactive Backstepping Control for Vibration Reduction in a Structure with Magnetorheological Damper Subject to Seismic Motions

2009

The use of magnetorheological (MR) dampers for mitigating vibrations caused by seismic motions in civil engineering structures has attracted much interest in the scientific community because of the advantages of this class of device. It is known that MR dampers can generate high damping forces with low energy requirements and low cost of production. However, the complex dynamics that characterize MR dampers make difficult the control design for achieving the vibration reduction goals in an efficient manner. In this article, a semiactive controller based on the backstepping technique is proposed. The controller was applied to a three-story building with an MR damper at its first floor subje…

Engineeringbusiness.industryMechanical EngineeringHybrid testingStructural engineeringDamperVibrationControl theoryBacksteppingMagnetorheological fluidGeneral Materials ScienceMagnetorheological damperbusinessReduction (mathematics)Journal of Intelligent Material Systems and Structures
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Semiactive vibration control of nonlinear structures through adaptive backstepping techniques withH∞performance

2011

This article presents a new approach to the vibration mitigation problem in structures subject to seismic motions. These kinds of structures are characterised by the uncertainties of the parameters that describe their dynamics, such as stiffness and damping coefficients. Moreover, the dampers used to mitigate the vibrations caused by earthquakes are usually nonlinear devices with frictional or hysteretic dynamics. We propose an adaptive backstepping controller to account for the uncertainties and the nonlinearities. The controller is formulated in such a way that it satisfies an H∞ performance. It is designed for a 10-storey building whose base is isolated with a frictional damper (passive …

Engineeringbusiness.industryVibration controlStiffnessStructural engineeringComputer Science ApplicationsTheoretical Computer ScienceDamperVibrationNonlinear systemControl and Systems EngineeringControl theoryBacksteppingmedicineMagnetorheological dampermedicine.symptombusinessInternational Journal of Systems Science
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An iterative based approach for hysteresis parameters estimation in Magnetorheological dampers

2012

The following work entails the problem of regenerating the hysteresis loop in the Magnetorheological (MR) dampers. The collected data from tests are not sufficient neither efficient for designing optimal controls compensating for the hysteresis in the dampers. This work presents an iterative based approach for estimating the hysteresis parameters, the method however can be generalized for different kind of dampers or actuators hence the hysteresis loop can be generalized using available test data. Some assumptions can be introduced in order to facilitate the underlines of the parameters estimation, one of the assumptions in this work is to use predetermined hysteresis parameters and regener…

HysteresisControl theoryEstimation theoryIterative methodComputer scienceMagnetorheological fluidParticle swarm optimizationMagnetorheological damperDamperTest data2012 6th IEEE INTERNATIONAL CONFERENCE INTELLIGENT SYSTEMS
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