Advances and Applications in Structural Vibration Control

Engineering structures characterized by increased height and slenderness, such as high-rise buildings, expansive cross-sea bridges, wind turbines, and floating platforms, are frequently located in regions with high-intensity dynamic hazards and challenging marine environments. These structures are s...

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出版: MDPI - Multidisciplinary Digital Publishing Institute 2026
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collection Directory of Open Access Books
description Engineering structures characterized by increased height and slenderness, such as high-rise buildings, expansive cross-sea bridges, wind turbines, and floating platforms, are frequently located in regions with high-intensity dynamic hazards and challenging marine environments. These structures are susceptible to various external dynamic loads, including winds, earthquakes, sea waves, and vibrations induced by construction or subway activities. Effective structural vibration control is paramount for bolstering the resilience and safety of such engineering structures. This reprint provides a comprehensive treatise on recent advances and applications in this critical field. The collected studies delve into a wide range of topics, including seismic retrofitting techniques; passive, active, semi-active, and hybrid control systems; advanced control strategies; and the vibration mitigation of various engineering structures. It further explores novel control devices, such as inerters, negative stiffness systems, and metamaterials, alongside the growing application of artificial intelligence and the development of smart structures.
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spelling doab-20.500.12854ir-1749142026-04-16T17:20:12Z Advances and Applications in Structural Vibration Control Ma, Ruisheng Zuo, Haoran Rong, Kunjie Wu, Siyuan Energy dissipation structure Frame shear wall structure Viscous damper parameter Damping efficiency Response surface method Restrained rocking Seismic isolation Pole-type structure Shaking table test Porcelain electrical equipment Viscous damper Placement arrangement Vibration comfort Serviceability Environmental vibration Vehicle-induced vibration Human-induced vibration Wind-induced vibration Machinery-induced vibration Structural analysis Comfort evaluation Vibration control Energy dissipation Toggle-style negative stiffness damper Displacement amplification factor Energy consumption coefficient Optimal control Intermediate column–lever viscous damper Simplified mechanical model of CLVD Vibration reduction effect Dissipated energy Vibrations Equivalent amortization Modal damping Elastomeric anti-seismic device Post-construction quality assessment On-site quality measurement Measuring robot Nonlinear energy sink Multi-degree-of-freedom structure Shake table tests Cable Damper Dynamic analysis Dynamic stiffness method Frequency equation Overall lifting construction method Construction control Unstressed state control theory Reasonable lifting point Temporary horizontal tension Dual control Reliability analysis Fragility analysis Pounding tuned mass damper Stay cable Inertial mass damper Negative stiffness damper Control effectiveness Damping ratio Low-gravity-center cable-stayed bridge Anti-seismic structural system Safety-belt system Bridge engineering thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBC Engineering: general Engineering structures characterized by increased height and slenderness, such as high-rise buildings, expansive cross-sea bridges, wind turbines, and floating platforms, are frequently located in regions with high-intensity dynamic hazards and challenging marine environments. These structures are susceptible to various external dynamic loads, including winds, earthquakes, sea waves, and vibrations induced by construction or subway activities. Effective structural vibration control is paramount for bolstering the resilience and safety of such engineering structures. This reprint provides a comprehensive treatise on recent advances and applications in this critical field. The collected studies delve into a wide range of topics, including seismic retrofitting techniques; passive, active, semi-active, and hybrid control systems; advanced control strategies; and the vibration mitigation of various engineering structures. It further explores novel control devices, such as inerters, negative stiffness systems, and metamaterials, alongside the growing application of artificial intelligence and the development of smart structures. 2026-04-16T17:19:59Z 2026-04-16T17:19:59Z 2025 book ONIX_20260416T142754_9783725857432_19 9783725857432 9783725857449 https://directory.doabooks.org/handle/20.500.12854/174914 eng application/octet-stream Attribution 4.0 International https://mdpi.com/books/ https://mdpi.com/books/pdfview/book/11796 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-5744-9 10.3390/books978-3-7258-5744-9 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725857432 9783725857449 294 CH open access
spellingShingle Energy dissipation structure
Frame shear wall structure
Viscous damper parameter
Damping efficiency
Response surface method
Restrained rocking
Seismic isolation
Pole-type structure
Shaking table test
Porcelain electrical equipment
Viscous damper
Placement arrangement
Vibration comfort
Serviceability
Environmental vibration
Vehicle-induced vibration
Human-induced vibration
Wind-induced vibration
Machinery-induced vibration
Structural analysis
Comfort evaluation
Vibration control
Energy dissipation
Toggle-style negative stiffness damper
Displacement amplification factor
Energy consumption coefficient
Optimal control
Intermediate column–lever viscous damper
Simplified mechanical model of CLVD
Vibration reduction effect
Dissipated energy
Vibrations
Equivalent amortization
Modal damping
Elastomeric anti-seismic device
Post-construction quality assessment
On-site quality measurement
Measuring robot
Nonlinear energy sink
Multi-degree-of-freedom structure
Shake table tests
Cable
Damper
Dynamic analysis
Dynamic stiffness method
Frequency equation
Overall lifting construction method
Construction control
Unstressed state control theory
Reasonable lifting point
Temporary horizontal tension
Dual control
Reliability analysis
Fragility analysis
Pounding tuned mass damper
Stay cable
Inertial mass damper
Negative stiffness damper
Control effectiveness
Damping ratio
Low-gravity-center cable-stayed bridge
Anti-seismic structural system
Safety-belt system
Bridge engineering
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBC Engineering: general
Advances and Applications in Structural Vibration Control
title Advances and Applications in Structural Vibration Control
title_full Advances and Applications in Structural Vibration Control
title_fullStr Advances and Applications in Structural Vibration Control
title_full_unstemmed Advances and Applications in Structural Vibration Control
title_short Advances and Applications in Structural Vibration Control
title_sort advances and applications in structural vibration control
topic Energy dissipation structure
Frame shear wall structure
Viscous damper parameter
Damping efficiency
Response surface method
Restrained rocking
Seismic isolation
Pole-type structure
Shaking table test
Porcelain electrical equipment
Viscous damper
Placement arrangement
Vibration comfort
Serviceability
Environmental vibration
Vehicle-induced vibration
Human-induced vibration
Wind-induced vibration
Machinery-induced vibration
Structural analysis
Comfort evaluation
Vibration control
Energy dissipation
Toggle-style negative stiffness damper
Displacement amplification factor
Energy consumption coefficient
Optimal control
Intermediate column–lever viscous damper
Simplified mechanical model of CLVD
Vibration reduction effect
Dissipated energy
Vibrations
Equivalent amortization
Modal damping
Elastomeric anti-seismic device
Post-construction quality assessment
On-site quality measurement
Measuring robot
Nonlinear energy sink
Multi-degree-of-freedom structure
Shake table tests
Cable
Damper
Dynamic analysis
Dynamic stiffness method
Frequency equation
Overall lifting construction method
Construction control
Unstressed state control theory
Reasonable lifting point
Temporary horizontal tension
Dual control
Reliability analysis
Fragility analysis
Pounding tuned mass damper
Stay cable
Inertial mass damper
Negative stiffness damper
Control effectiveness
Damping ratio
Low-gravity-center cable-stayed bridge
Anti-seismic structural system
Safety-belt system
Bridge engineering
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBC Engineering: general
topic_facet Energy dissipation structure
Frame shear wall structure
Viscous damper parameter
Damping efficiency
Response surface method
Restrained rocking
Seismic isolation
Pole-type structure
Shaking table test
Porcelain electrical equipment
Viscous damper
Placement arrangement
Vibration comfort
Serviceability
Environmental vibration
Vehicle-induced vibration
Human-induced vibration
Wind-induced vibration
Machinery-induced vibration
Structural analysis
Comfort evaluation
Vibration control
Energy dissipation
Toggle-style negative stiffness damper
Displacement amplification factor
Energy consumption coefficient
Optimal control
Intermediate column–lever viscous damper
Simplified mechanical model of CLVD
Vibration reduction effect
Dissipated energy
Vibrations
Equivalent amortization
Modal damping
Elastomeric anti-seismic device
Post-construction quality assessment
On-site quality measurement
Measuring robot
Nonlinear energy sink
Multi-degree-of-freedom structure
Shake table tests
Cable
Damper
Dynamic analysis
Dynamic stiffness method
Frequency equation
Overall lifting construction method
Construction control
Unstressed state control theory
Reasonable lifting point
Temporary horizontal tension
Dual control
Reliability analysis
Fragility analysis
Pounding tuned mass damper
Stay cable
Inertial mass damper
Negative stiffness damper
Control effectiveness
Damping ratio
Low-gravity-center cable-stayed bridge
Anti-seismic structural system
Safety-belt system
Bridge engineering
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBC Engineering: general
url ONIX_20260416T142754_9783725857432_19