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Artykuły w czasopismach na temat „Active mass damper”

Autor: Grafiati
Data publikacji: 3 czerwca 2025
Data aktualizacji: 31 lipca 2025

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1

Chesné, Simon. "Hybrid skyhook mass damper." Mechanics & Industry 22 (2021): 49. http://dx.doi.org/10.1051/meca/2021050.

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The objective of this study is to increase the efficiency of an initial passive Tuned Mass Damper (TMD) by adding an active control unit. A critical issue in many engineering domains is the design of fail-safe active systems. The proposed hybrid system aims to address this issue and realizes the said objective. It emulates the behavior of a skyhook damper parallel to a passive TMD. Skyhook dampers acts like viscous dampers connected to the ground, reducing the vibration amplitudes without any overshoot. It can be difficult to design a specific control law to obtain a desired dynamical behavior
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2

Kim, Young Moon, Ki Pyo You, Jang Youl You, Sun Young Paek, and Byung Hee Nam. "LQG Control of Along-Wind Responses of Tall Building Using Composite Tuned Mass Dampers." Key Engineering Materials 723 (December 2016): 753–59. http://dx.doi.org/10.4028/www.scientific.net/kem.723.753.

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A composite tuned mass damper(CTMD) is a vibration control device consisting of an active-passive tuned mass dampers supported on the primary vibrating structure. The performance of CTMD in mitigating wind-induced vibration of tall building is investigated. Optimum parameters of a passive tuned mass damper(PTMD)for minimizing the variance response of the damped primary structure under random loads, with different mass ratio of an active tuned mass damper(ATMD) to a PTMD have been used for the optimum parameters of CTMD. The active control force generated by ATMD actuator was estimated by using
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3

Nishimura, I., T. Kobori, M. Sakamoto, N. Koshika, K. Sasaki, and S. Ohrui. "Active tuned mass damper." Smart Materials and Structures 1, no. 4 (1992): 306–11. http://dx.doi.org/10.1088/0964-1726/1/4/005.

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4

Cong, Cong. "Using active tuned mass dampers with constrained stroke to simultaneously control vibrations in wind turbine blades and tower." Advances in Structural Engineering 22, no. 7 (2018): 1544–53. http://dx.doi.org/10.1177/1369433218817892.

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Simultaneous control of wind turbine blades and tower vibrations is studied in this article. Four active tuned mass dampers have been incorporated into each blade and tower to reduce vibrations. A decentralized constrained H∞ velocity output feedback which restricts the tuned mass damper stroke as a hard constraint is proposed by solving linear matrix inequality. Each active tuned mass damper is driven individually by the output of the corresponding velocity signal. Considering the structural dynamics subjected to gravity, variable rotor speed, and aerodynamic loadings, a model describing dyna
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5

Setareh, Mehdi. "Floor vibration control using semi-active tuned mass dampers." Canadian Journal of Civil Engineering 29, no. 1 (2002): 76–84. http://dx.doi.org/10.1139/l01-063.

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This paper discusses the application of a new class of semi-active tuned mass dampers, called ground-hook tuned mass dampers (GHTMD), for the reduction of floor vibrations due to human movements. The TMD introduced uses a continuously variable semi-active damper (ground-hook damper) to achieve reduction in the floor acceleration. Here, the GHTMD is applied to a single degree of freedom system representative of building floors. The GHTMD design parameters are defined in terms of non-dimensional values. The optimum values of these parameters are found based on the minimization of the acceleratio
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6

Chen, Jian Guo, Jun Sheng Cheng, and Yong Hong Nie. "Research on the Decoupling Control Algorithm of Full Vehicle Semi-Active Suspension." Advanced Materials Research 479-481 (February 2012): 1355–60. http://dx.doi.org/10.4028/www.scientific.net/amr.479-481.1355.

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Vehicle suspension is a MIMO coupling nonlinear system; its vibration couples that of the tires. When magneto-rheological dampers are adopted to attenuate vibration of the sprung mass, the damping forces of the dampers need to be distributed. For the suspension without decoupling, the vibration attenuation is difficult to be controlled precisely. In order to attenuate the vibration of the vehicle effectively, a nonlinear full vehicle semi-active suspension model is proposed. Considering the realization of the control of magneto-rheological dampers, a hysteretic polynomial damper model is adopt
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7

A. Salh, Hayaty, and Amer M. Ibrahim. "Enhancing Building Stability and Seismic Resilience with Water-Added Tuned Mass Dampers." Bilad Alrafidain Journal for Engineering Science and Technology 3, no. 2 (2024): 154–61. http://dx.doi.org/10.56990/bajest/2024.030211.

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These days, the construction industry is increasingly producing buildings with extremely low damping values. Under structural vibrations caused by storms and earthquakes, structures can collapse easily. There are now several methods for reducing structural vibrations, and one of the methods currently employed is the Tuned Mass Damper (TMD). Research is being conducted to determine its performance and importance. The entire damper was tuned for various constructions. An eight-story model specifically designed for the structure was used in this study to observe the structure's response with and
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8

Gutiérrez, Fredy Giovany Osorio, Hernán González Acuña, and Omar Lengerke. "Dynamic Analysis of Active Mass Damper." Applied Mechanics and Materials 419 (October 2013): 117–21. http://dx.doi.org/10.4028/www.scientific.net/amm.419.117.

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This article presents a CAD design and analysis of the dynamics of a mass damper, used to reduce amplitude of vibrations in a high building. The mass damper dissipates the energy of earthquakes or strong winds on the top, thus avoiding structure damage, and preventing collapse.
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9

Wang, Xiuli, and Di Yun. "Force Feedback Control Method of Active Tuned Mass Damper." Shock and Vibration 2017 (2017): 1–8. http://dx.doi.org/10.1155/2017/9659425.

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Active tuned mass dampers as vibration-control devices are widely used in many fields for their good stability and effectiveness. To improve the performance of such dampers, a control method based on force feedback is proposed. The method offers several advantages such as high-precision control and low-performance requirements for the actuator, as well as not needing additional compensators. The force feedback control strategy was designed based on direct-velocity feedback. The effectiveness of the method was verified in a single-degree-of-freedom system, and factors such as damping effect, re
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10

FURUISHI, Yoshiro, and Kiyoshi TAKETOH. "The active control of structural vibration by an active mass damper (Modal control of active mass damper)." Transactions of the Japan Society of Mechanical Engineers Series C 52, no. 473 (1986): 237–43. http://dx.doi.org/10.1299/kikaic.52.237.

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11

Lavasani, Seyed Hossein Hosseini, Hamed Alizadeh, Rouzbeh Doroudi, and Peyman Homami. "Vibration control of suspension bridge due to vertical ground motions." Advances in Structural Engineering 23, no. 12 (2020): 2626–41. http://dx.doi.org/10.1177/1369433220919079.

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Suspension bridges due to their long span can experience large displacement response under dynamic loading like earthquakes. Unlike other structures, their vertical vibration may make remarkable difficulty that a control strategy seems to be essential. Tuned mass damper is a passive control system that can be changed to active one by adding an external source producing the active control force called active tuned mass damper. Unlike passive systems, active ones need a controller system affecting the performance of them considerably. In this study, the efficiency of tuned mass damper and active
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12

Nikooyan, A. A., and A. A. Zadpoor. "Mass–spring–damper modelling of the human body to study running and hopping – an overview." Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine 225, no. 12 (2011): 1121–35. http://dx.doi.org/10.1177/0954411911424210.

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Several mass–spring–damper models have been developed to study the response of the human body to the collision with the ground during hopping, trotting, or running. The mass, spring, and damper elements represent the masses, stiffness properties, and damping properties of hard and soft tissues. The masses that models are composed of are connected to each other via springs and dampers. The present paper reviews the various types of mass–spring–damper models including one-body and multi-body models. The models are further categorized as being either passive or active. In passive models, the mech
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13

Bathaei, Akbar, Sasan Mostaghimi Tehrani, and Morteza Raissi Dehkordi. "Vibrations Control of a SODF Structure Using TMD and MR Damper with Fuzzy Logic Algorithm Based on Velocity." Journal of Civil Engineering and Construction 13, no. 4 (2024): 179–91. http://dx.doi.org/10.32732/jcec.2024.13.4.179.

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In this study, the effects of using a passive tuned mass damper (TMD) with optimal parameters and a semi-active magnetorheological damper (MR damper) have been evaluated separately and simultaneously to control seismic vibrations of a linear single degree of freedom system, which was a simple "mass-spring-damper" model. OpenSEES software was used to model the single degree of freedom system and TMD, and MATLAB software was used to model MR damper. Fuzzy logic algorithm was used by MATLAB to determine the appropriate voltage for MR damper. By solving the dynamic equation of the damper, its forc
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14

Kang, Min Sig. "FxLMS Algorithm for Active Vibration Control of Structure By Using Inertial Damper with Displacement Constraint." Journal of the Korea Institute of Military Science and Technology 24, no. 5 (2021): 545–57. http://dx.doi.org/10.9766/kimst.2021.24.5.545.

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Engine is the main source of vibration that generates unwanted noise and vibration of vehicle chassis. Especially, in submarine applications, radiation of noise signatures can be detected at some distance away from the submarine using a sonar array. Thus quiet operation is crucial for submarine’s survivability. This study addresses reduction of the force transmissibility originating from engines and transmitted to hull through engine mounts. An inertial damper, as an actuator of hybrid mount system, is addressed to reduce even further the level of vibration. Narrow band FxLMS algorithms are br
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15

Owji, H. R., A. Hossain Nezhad Shirazi, and H. Hooshmand Sarvestani. "A Comparison between a New Semi-Active Tuned Mass Damper and an Active Tuned Mass Damper." Procedia Engineering 14 (2011): 2779–87. http://dx.doi.org/10.1016/j.proeng.2011.07.350.

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16

KOIZUMI, Takayuki, Yoshirou FURUISHI, and Nobutaka TSUJIUCHI. "Active control of structural vibration by an active mass damper. Comparison between the performance of active mass damper and passive mass damper against the earthquake motion." Transactions of the Japan Society of Mechanical Engineers Series C 55, no. 515 (1989): 1602–8. http://dx.doi.org/10.1299/kikaic.55.1602.

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17

Hadizadeh, F., F. Akhlaghi Amiri, and H. Shariatmadar. "Performance of Structure Equipped AP-TMD Compared with MTMD, ATMD, and PTMD against Earthquake Using Genetic Fuzzy Algorithm." Advances in Civil Engineering 2022 (August 29, 2022): 1–20. http://dx.doi.org/10.1155/2022/6931212.

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During the past years, different control devices have been introduced and used to reduce the response of structures. This article presents the performance of active-passive tuned mass dampers (AP-TMDs) in the reduction of structural responses and a comparison between the uses of different controllers, including tuned mass damper (TMD), active tuned mass damper (ATMD), and multituned mass damper (MTMD). Analyzing and modeling the structure under four near- and far-field earthquakes are performed in MATLAB and SIMULINK. Finally, the responses of controlled and uncontrolled structures equipped wi
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18

Mojaz, Sahar Bakhtiari, and Hamed Kashani. "Active Control Comparison of Vibration in Flexible Spacecraft Using Different Active Friction Joints." Applied Mechanics and Materials 446-447 (November 2013): 1160–64. http://dx.doi.org/10.4028/www.scientific.net/amm.446-447.1160.

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Vibration properties of most assembled mechanical systems depend on frictional damping in joints. The nonlinear transfer behavior of the frictional interfaces often provides the dominant damping mechanism in structure and plays an important role in the vibratory response of it. For improving the performance of systems, many studies have been carried out to predict measure and enhance the energy dissipation of friction. This paper presents a new approach to vibration reduction of flexible spacecraft with enhancing the energy dissipation of frictional dampers. Spacecraft is modeled as a 3 degree
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19

Karl, Tim, and Delf Sachau. "Vibration damping by maximizing the reactive power of an inertial shaker." Journal of the Acoustical Society of America 154, no. 4_supplement (2023): A163. http://dx.doi.org/10.1121/10.0023138.

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Passive and active vibration control is required to reduce noise, prevent damage, or maintain the stability of a structure. Active measures are of particular importance due to their narrowband performance. They use inverted or phase shifted signals to shift the kinetic energy of the vibrating structure to frequency bands where it does not have a negative effect on the sound emission and auditory sensation. In this paper, an active-mass-damper is realized by an inertial shaker as actuator by controlling its current. The power that the active-mass-damper transmits to the vibrating structure is m
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20

Shin, Ji-Hwan, Jin-Ho Lee, Won-Hee You, and Moon K. Kwak. "Vibration suppression of railway vehicles using a magneto-rheological fluid damper and semi-active virtual tuned mass damper control." Noise Control Engineering Journal 67, no. 6 (2019): 493–507. http://dx.doi.org/10.3397/1/376745.

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A semi-active virtual tuned mass damper (SAVTMD) control algorithm is developed to suppress vibrations of a railway vehicle by using magneto-rheological (MR) damper. To this end, a virtual-tuned-mass-damper control algorithm analogous to the tuned mass damper was developed prior to the semi-active application. The proposed SAVTMD control algorithm uses the acceleration of the car body directly, so that it is more practical than the sky-hook control algorithm that uses the velocity of the car body. The application of the SAVTMD control to a real MR fluid damper is discussed, and a step-by-step
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21

Jaballah, M. S., S. Harzallah, and B. Nail. "A Comparative Study on Hybrid Vibration Control of Base-isolated Buildings Equipped with ATMD." Engineering, Technology & Applied Science Research 12, no. 3 (2022): 8652–57. http://dx.doi.org/10.48084/etasr.4958.

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The vibration control for building structures using hybrid control (base isolators BI and Active Tuned Mass Dampers-ATMDs) has attracted the attention of researchers. This paper establishes a hybrid vibration control system of structure and compares structural response and active tuned mass damper performance among the structure using two different control algorithms (PID and LQR). Through simulation research, from the comparative analysis of performance indexes of structural response and ATMD performance, it is concluded that the LQR controller outperforms the PID controller in reducing the s
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22

Al-Tamimi, Alaa Al-Tamimi, and T. MohammadRidha. "Comparison of Adaptive Sliding Mode Controllers in Earthquake Induced Vibrations." Journal of Robotics and Control (JRC) 6, no. 2 (2025): 1041–50. https://doi.org/10.18196/jrc.v6i2.25763.

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This study aims to reduce earthquake-related vibrations in buildings. This is achieved by designing two different robust adaptive control algorithms to control the damping force of the dampers. This design is used in mitigating the structural vibrations of a three-story prototype building exposed to two different scaled earthquakes. Two cases are considered where two damping systems are employed and mounted on the top floor: an Active Tuned Mass Damper (ATMD), the second damper is a semi-active Magnetorheological Damper (MRD). The first damper depends entirely on the control algorithm to corre
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23

Unuh, H., P. Muhamad, F. Yakub, M. A. Ismail, and Z. Tanasta. "Experimental Validation to a Prototype Magnetorheological (MR) Semi-Active Damper for C-Class Vehicle." International Journal of Automotive and Mechanical Engineering 16, no. 3 (2019): 7034–47. http://dx.doi.org/10.15282/ijame.16.3.2019.15.0527.

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In this study, a semi-active damper with OEM technical standard featuring MR fluid was fabricated to assess its use as potential reinforcement in enhancing c-class vehicle ride comfort. The finite element modelling was employed to investigate the capability of the MR semi-active damper prototype design in altered the damping utilizing unique rheological properties of MR fluid. The quarter car test rig completes with DYTRAN accelerometer and LMS Scadas mobile was operated to measure the RMS sprung mass acceleration of the MR semi-active damper prototype caused by a 5cm sinusoidal bump at speed
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24

Pourzeynali, S., and S. Salimi. "Robust multi-objective optimization design of active tuned mass damper system to mitigate the vibrations of a high-rise building." Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 229, no. 1 (2014): 26–43. http://dx.doi.org/10.1177/0954406214531942.

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In engineering applications, many control devices have been developed to reduce the vibrations of structures. Active tuned mass damper system is one of these devices, which is a combination of a passive tuned mass damper system and an actuator to produce a control force. The main objective of this paper is to present a practical procedure for both deterministic and probabilistic design of the active tuned mass damper control system using multi-objective genetic algorithms to mitigate high-rise building responses. For this purpose, extensive numerical analyses have been performed, and optimal r
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25

Masri, S. F., R. K. Miller, T. J. Dehghanyar, and T. K. Caughey. "Active Parameter Control of Nonlinear Vibrating Structures." Journal of Applied Mechanics 56, no. 3 (1989): 658–66. http://dx.doi.org/10.1115/1.3176143.

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A simple, yet efficient method is presented for the on-line vibration control of nonlinear, multidegree-of-freedom systems responding to arbitrary dynamic environments. The procedure uses nonlinear auxiliary mass dampers with adjustable motion-limiting stops located at selected positions throughout a given nonlinear system. A mathematical model of the system to be controlled is not needed for implementing the control algorithm. The degree of the primary structure oscillation near each vibration damper determines the damper’s actively-controlled gap size and activation time. By using control en
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26

Hemmati, Arash, and Erkan Oterkus. "Semi-Active Structural Control of Offshore Wind Turbines Considering Damage Development." Journal of Marine Science and Engineering 6, no. 3 (2018): 102. http://dx.doi.org/10.3390/jmse6030102.

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High flexibility of new offshore wind turbines (OWT) makes them vulnerable since they are subjected to large environmental loadings, wind turbine excitations and seismic loadings. A control system capable of mitigating undesired vibrations with the potential of modifying its structural properties depending on time-variant loadings and damage development can effectively enhance serviceability and fatigue lifetime of turbine systems. In the present paper, a model for offshore wind turbine systems equipped with a semi-active time-variant tuned mass damper is developed considering nonlinear soil–p
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27

KAKINOUCHI, TSUTOMU, TOSHIO ASANO, KOJI TANIDA, and NORIO TAKAHASHI. "ACTIVE MASS DAMPER DEMONSTRATION FOR SHIP VIBRATION REDUCTION." Naval Engineers Journal 104, no. 4 (1992): 85. http://dx.doi.org/10.1111/j.1559-3584.1992.tb01125.x.

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KAKINOUCHI, TSUTOMU, TOSHIO ASANO, KOJI ANIDA, and NORIO TAKAHASHI. "Active Mass Damper Demonstration for Ship Vibration Reduction." Naval Engineers Journal 104, no. 3 (1992): 46–52. http://dx.doi.org/10.1111/j.1559-3584.1992.tb02223.x.

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Chang, C. C., J. F. Wang, and C. C. Lin. "Parameter identification for active mass damper controlled systems." Journal of Physics: Conference Series 744 (September 2016): 012166. http://dx.doi.org/10.1088/1742-6596/744/1/012166.

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YONEMURA, Jun-ichi, Sang-Soo KIM, Hitoshi MIKAMI, Bunshu NAGAI, and Yohji OKADA. "Regenerative Control of Active Mass Type Vibration Damper." Transactions of the Japan Society of Mechanical Engineers Series C 65, no. 632 (1999): 1374–80. http://dx.doi.org/10.1299/kikaic.65.1374.

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31

FUKUI, Koji, Kazuo YOSHIDA, and Tsuyoshi OKUBO. "Seesaw Active Mass Damper for Structural Vibration Control." Transactions of the Japan Society of Mechanical Engineers Series C 62, no. 595 (1996): 845–51. http://dx.doi.org/10.1299/kikaic.62.845.

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32

Fu, Tat S., and Erik A. Johnson. "Active Control for a Distributed Mass Damper System." Journal of Engineering Mechanics 140, no. 2 (2014): 426–29. http://dx.doi.org/10.1061/(asce)em.1943-7889.0000650.

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WADA, Takuya, Junichi HONGU, and Daisuke IBA. "Active Mass Damper using Mean Field of Oscillators." Proceedings of the Dynamics & Design Conference 2019 (2019): 210. http://dx.doi.org/10.1299/jsmedmc.2019.210.

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34

Rildova and M. P. Singh. "Acceleration Feedback-Based Active and Semi-Active Seismic Response Control of Rail-Counterweight Systems of Elevators." Shock and Vibration 12, no. 6 (2005): 435–48. http://dx.doi.org/10.1155/2005/130907.

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Based on the observations in the past earthquake events, the traction elevators in buildings are known to be vulnerable to earthquake induced ground motions. Among several components of an elevator, the counterweight being heaviest is also known to be more susceptible than others. The inertial effects of the counterweight can overstress the guide rails on which it moves. Here we investigate to use the well-known acceleration feedback-based active and semi-active control methods to reduce stresses in the rails. The only way a control action can be applied to a moving counterweight-rail system i
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Yan, Xiao, Zhao-Dong Xu, and Qing-Xuan Shi. "Fuzzy neural network control algorithm for asymmetric building structure with active tuned mass damper." Journal of Vibration and Control 26, no. 21-22 (2020): 2037–49. http://dx.doi.org/10.1177/1077546320910003.

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Asymmetric structures experience torsional effects when subjected to seismic excitation. The resulting rotation will further aggravate the damage of the structure. A mathematical model is developed to study the translation and rotation response of the structure during seismic excitation. The motion equations of the structures which cover the translation and rotation are obtained by the theoretical derivations and calculations. Through the simulated computation, the translation and rotation response of the structure with the uncontrolled system, the tuned mass damper control system, and active
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36

Tang, Xiudong, and Lei Zuo. "Simultaneous energy harvesting and vibration control of structures with tuned mass dampers." Journal of Intelligent Material Systems and Structures 23, no. 18 (2012): 2117–27. http://dx.doi.org/10.1177/1045389x12462644.

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The vibrations of the tall buildings are serious concerns to both engineers and architects for the protection of the safety of the structure and occupant comfort. In order to mitigate the vibration, different approaches have been proposed, among which tuned mass dampers are one of the most preferable and have been widely used in practice. Instead of dissipating the vibration energy into heat waste via the viscous damping element, this article presents an approach to harvest the vibration energy from tall buildings with tuned mass dampers, by replacing the energy-dissipating element with an ele
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Jian, Xu, Zhang Tong-yi, Huang Wei, Hu Ming-yi, Qin Jing-wei, and Zu Xiao-chen. "Active control for machinery equipment induced structural vibration using H∞ criterion and PSO technique." Engineering review 39, no. 1 (2019): 21–28. http://dx.doi.org/10.30765/er.39.1.3.

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In this paper, machinery equipment induced structural vibration was investigated and a composite system for structure and equipment was proposed. Tuned mass damper (TMD) and active tuned mass damper (ATMD) were respectively performed for vibration control, in addition, particle swarm optimization (PSO) was utilized for pursuing an optimal active control. Numerical results confirmed that the presented active control strategy could achieve a better vibration suppression compared to TMD control. The PSO based active control also gave inspiration for improving the traditional vibration control.
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38

Adhar Bagus, Muhammad, Azizan As’arry, Hesham Ahmed Abdul Mutaleb Abas, Abdul Aziz Hairuddin, and Mohd Khair Hassan. "Vibration control of FSAE quarter car suspension test rig using magnetorheological damper." Indonesian Journal of Electrical Engineering and Computer Science 17, no. 3 (2020): 1281. http://dx.doi.org/10.11591/ijeecs.v17.i3.pp1281-1288.

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Recently MRF damper -which has a significant controllable damping force - used frequently in many active and semi-active suspension systems. However, MRF damper needs controller to estimate the desired force to dissipate the occurred vibration instantaneously. PID controller is one of the effective feedback controllers which shows robustness and simplicity in control MRF dampers, but still the parameters of the PID controller under study to find out the optimum values. This study focused on the vibration control using Magneto-rheological (MR) damper on a FSAE quarter car suspension test rig to
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Muhammad, Adhar Bagus, As'arry Azizan, Ahmed Abdul Mutaleb Abas Hesham, Aziz Hairuddin Abdul, and Khair Hassan Mohd. "Vibration control of FSAE quarter car suspension test rig using magnetorheological damper." Indonesian Journal of Electrical Engineering and Computer Science (IJEECS) 17, no. 3 (2020): 1281–88. https://doi.org/10.11591/ijeecs.v17.i3.pp1281-1288.

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Recently MRF damper -which has a significant controllable damping force - used frequently in many active and semi-active suspension systems. However, MRF damper needs controller to estimate the desired force to dissipate the occurred vibration instantaneously. PID controller is one of the effective feedback controllers which shows robustness and simplicity in control MRF dampers, but still the parameters of the PID controller under study to find out the optimum values. This study focused on the vibration control using Magneto-rheological (MR) damper on a FSAE quarter car suspension test rig to
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Lee, Jeongwoo, and Kwangseok Oh. "Hybrid Damping Mode MR Damper: Development and Experimental Validation with Semi-Active Control." Machines 13, no. 5 (2025): 435. https://doi.org/10.3390/machines13050435.

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This study introduces a novel magnetorheological (MR) damper for semi-active vehicle suspension systems that enhance ride comfort and handling stability. The proposed damper integrates reverse and normal damping modes, enabling independent control of rebound and compression strokes through an external MR valve. This configuration supports four damping modes—Soft/Soft, Hard/Soft, Soft/Hard, and Hard/Hard—allowing adaptability to varying driving conditions. Magnetic circuit optimization ensures rapid damping force adjustments (≈10 ms), while a semi-active control algorithm incorporating skyhook
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Dumne, ShivajiM, and M. K. Shrimali. "Seismic Response Analysis of Vertically Irregular RC Building with MR Dampers." Proceedings of the 12th Structural Engineering Convention, SEC 2022: Themes 1-2 1, no. 1 (2022): 843–47. http://dx.doi.org/10.38208/acp.v1.592.

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Seismic hazard mitigation has become one of the emerging problems in structural engineering therefore; many researchers have been studied on seismic performance of reinforced concrete structures having vertically regular and irregular. It is noted that vertically irregular structures are more prone to hazards due to earthquake. The recent emerging trend is to use active, passive, semi-active controls that aid in keeping the responses of structures in permissible. The most dynamically varied semi-active damper is a Magneto-Rheological (MR) damper which is used in this study to control the seism
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Liu, Yunyun, Aina Nurshahiera, Azizan As’arry, Hesham Ahmed Abdul Mutaleb Abas, Abdul Aziz Hairuddin, and Mohd Khair Hassan. "Active Force Control for Semi-Active Suspension with Magnetorheological Damper." Journal of Advanced Research in Applied Mechanics 122, no. 1 (2024): 156–62. http://dx.doi.org/10.37934/aram.122.1.156162.

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The suspension system of an automobile is responsible for smoothing out the ride and maintaining control of the vehicle. However, traditional passive suspension system does not achieve satisfactory performance due to a lack of control over the damping force. Semi-active suspension (SAS) systems are now even more feasible because to their reduced power consumption, which is a result of the quick advancement of electronic sensors and actuator technologyOne of the greatest and most dependable semi-active control components available for suspension systems that can further enhance ride comfort is
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HATANAKA, Satoshi, Toshihiko KOMATSUZAKI, Haruhiko ASANUMA, Kaoru TADA, and Masashi MATSUDA. "Active control of tremor in hands using an active mass damper." Proceedings of Conference of Hokuriku-Shinetsu Branch 2020.57 (2020): H014. http://dx.doi.org/10.1299/jsmehs.2020.57.h014.

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Song, Gangbing, Hong-Nan Li, and Steve C. S. Cai. "Editorial for Special Issue “Energy Dissipation and Vibration Control: Materials, Modeling, Algorithm, and Devices”." Applied Sciences 10, no. 2 (2020): 572. http://dx.doi.org/10.3390/app10020572.

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Many engineering systems, from subsea pipelines to space structures, from moving vehicles to stationary skyscrapers, are subject to unwanted vibration excitations. Often vibration control can be considered as a problem of energy dissipation and vibration damping. The aims of this issue are to accumulate, disseminate, and promote new knowledge about vibration control, especially for topics related to energy dissipation methods for vibration damping. Topics in this issue reflect the start-of-the-arts in the field of vibration control, such as inerter dampers and pounding tuned mass dampers (PTMD
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Li, Hua, Hui Liu, and Chang Le Xiang. "Study on the Damping Characteristic of Semi-Active Torsional Damper Based on Combined Positive and Negative Stiffness." Applied Mechanics and Materials 577 (July 2014): 182–86. http://dx.doi.org/10.4028/www.scientific.net/amm.577.182.

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The concept of semi-active torsional vibration damper based on combined positive and negative stiffness is derived and its working principle is discussed. Stiffness expression of parallel mechanism is established, and its elastic properties were analyzed. By establishing nonlinear dynamic model of the proposed damper, its dynamic characteristics are analyzed. The torsional vibration control effect of the proposed damper is better than the traditional dual mass flywheel type torsional vibration damper.
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Lin, Jui-Liang, Keh-Chyuan Tsai, and Yi-Jer Yu. "Coupled Tuned Mass Dampers for the Seismic Control of Asymmetric-Plan Buildings." Earthquake Spectra 26, no. 3 (2010): 749–78. http://dx.doi.org/10.1193/1.3435347.

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An innovative tuned mass damper, referred to as a coupled tuned mass damper (CTMD), is proposed for the control of a coupled vibration mode of one-way asymmetric-plan buildings. The CTMD simultaneously translates and rotates almost resonantly with the vibration of the controlled mode, which actually vibrates in translation, as well as rotation. Thus, the CTMD can be viewed as a direct approach for controlling the modal vibration of asymmetric-plan buildings. First, the CTMD is developed from the two-degree-of-freedom modal system, which has one active and one spurious vibration frequency. It i
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Farokhi, Saeed, Aghil Yosefi Komma, and Zohreh Bayat. "Semi Active Control of Chaos in Systems Excited by Non-Ideal DC Motor." Applied Mechanics and Materials 110-116 (October 2011): 5367–72. http://dx.doi.org/10.4028/www.scientific.net/amm.110-116.5367.

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In this paper, semi active control of non-ideal mechanical system with Magneto-Rheological (MR) damper is presented. The setup composed of a motor operating on a structure with mass M connected to a fixed frame by a non-linear spring and with a linear viscous damper. From the investigations carried out it is possible to observe the DC motor influence on the vibrating system along with non-periodic motions with chaotic characteristic. To control this system linear viscose damper is substituted by MR damper. A semi-active control method, sky-hook control is used in this study. Our results sugges
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Yoshioka, H., Y. Takahashi, K. Katayama, T. Imazawa, and N. Murai. "An Active Microvibration Isolation System for Hi-tech Manufacturing Facilities." Journal of Vibration and Acoustics 123, no. 2 (2000): 269–75. http://dx.doi.org/10.1115/1.1350566.

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This paper presents an active microvibration isolation system using voice-coil linear motors, and pneumatic and piezoelectric actuators. This system is designed to reduce microvibration of the six degrees-of-freedom associated with the rigid body modes of the vibration isolation table by feeding back the pseudo absolute displacement and velocity of the table. To improve vibration isolation performance, a feed-forward control link is added to the sway components in each dimension. This system can also control bending modes of the table in the frequency range up to 200 Hz by employing a proposed
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Haniuda, Nobuyoshi, Richard Kirby, and Takayuki Mori. "Development of translational/torsional control active mass damper system." Proceedings of the JFPS International Symposium on Fluid Power 1993, no. 2 (1993): 261–66. http://dx.doi.org/10.5739/isfp.1993.261.

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ABE, Naoto, Kouhei ANZAI, and Daisuke MIZUNOYA. "Switching Vibration Control of Passive and Active Mass Damper." Transactions of the Japan Society of Mechanical Engineers Series C 72, no. 713 (2006): 102–8. http://dx.doi.org/10.1299/kikaic.72.102.

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