喬浩帥

工程博士

聯系郵箱：hsqiao@hainanu.edu.cn

通訊地址：海南省海口市美蘭區人民大道58号365英国上市官网在线

郵政編碼：570228

基本情況

喬浩帥，男，漢族，籍貫河南洛陽。2016年本科畢業于廈門大學；2020年碩士畢業于汕頭大學；2024年于同濟大學獲工程博士學位。主要研究方向為結構風工程和結構振動控制。自2024年9月起，進入365英国上市官网在线從事教學科研工作。共發表SCI/EI刊源論文10餘篇，總被引用400餘次。擔任《Engineering Structures》、《International Journal of Structural Stability and Dynamics》、《Structures》等SCI期刊審稿人。參與多項工程結構抗風設計課題。

現任職務

365英国上市官网在线土木工程系，高聘副研究員

研究方向

[1] 建（構）築物與新能源設施抗風

[2] 被動振動控制

學習經曆

[1] 2012.09~2016.07，廈門大學，土木工程，大學本科/學士

[2] 2017.09~2020.07，汕頭大學，結構工程，碩士研究生/工學碩士

[3] 2020.09~2024.07，同濟大學，土木水利，博士研究生/工程博士

發表論文

[1] 喬浩帥, 黃鵬*, De Domenico, Dario, 王欽華. Structural control of high-rise buildings subjected to multi-hazard excitations using inerter-based vibration absorbers. Engineering Structures, 2022.09. 266: 114666.（SCI）

[2] 喬浩帥, 黃鵬*, De Domenico, Dario, 王欽華. Targeted modal response control of structures with inerter-based vibration absorbers considering modal interaction effects. Journal of Building Engineering, 2023.04. 64: 105692.（SCI）

[3] 喬浩帥, 黃鵬*, De Domenico, Dario. Automatic optimal design of passive vibration control devices for buildings using two-level evolutionary algorithm. Journal of Building Engineering, 2023.08. 72: 106684. （SCI）

[4] 王欽華, 吳華曉, 喬浩帥*, 餘先鋒, 黃鵬. Asymmetric and Cubic Nonlinear Energy Sink Inerters for Mitigating Wind-Induced Responses of High-Rise Buildings. Structural Control and Health Monitoring, 2023.10. 2023: 1150525.（SCI）

[5] 喬浩帥, 黃鵬*. 基于一階模态控制的慣質吸振器抗風設計. 振動與沖擊, 2023.08. 42(15): 65-72.（EI，JA）

[6] 王欽華，楊東旭，喬浩帥*，黃漢傑，黃鵬. Wind tunnel tests on nonlinear energy sink for mitigating wind-induced responses of high-rise buildings. Structures, accepted. (SCI)

[7] 李金钰，喬浩帥，黃鵬*. Vibration mitigation of offshore wind turbines using pre-stressed nonlinear energy sinks under multiple load combinations. Ocean Engineering, 2024.12. 313(Part 2): 119553. (SCI)

[8] 王欽華, 喬浩帥, De Domenico, Dario*, 祝志文，唐意. Seismic response control of adjacent high-rise buildings linked by the Tuned Liquid Column Damper-Inerter (TLCDI). Engineering Structures, 2020.11. 223: 111169.（SCI）

[9] 王欽華, 喬浩帥, De Domenico, Dario*, 祝志文，唐意. Seismic response control of adjacent high-rise buildings linked by the Tuned Liquid Column Damper-Inerter (TLCDI). Engineering Structures, 2020.11. 223: 111169.（SCI）

[10] 王欽華, 喬浩帥, De Domenico, Dario*, 祝志文，唐意. Seismic performance of optimal Multi-Tuned Liquid Column Damper-Inerter (MTLCDI) applied to adjacent high-rise buildings. Soil Dynamics and Earthquake Engineering, 2021.04. 143: 106653.（SCI）

[11] 王欽華, 喬浩帥, 李文姬*, 遊煜根, 範衠, Tiwari, Nayan deep. Parametric optimization of an inerter-based vibration absorber for wind-induced vibration mitigation of a tall building. Wind and Structures, 2020.09. 31(3): 241-253.（SCI）

[12] 王欽華, 喬浩帥, De Domenico, Dario*, 祝志文, 謝壯甯. Wind-Induced Response Control of High-Rise Buildings Using Inerter-Based Vibration Absorbers. Applied Sciences, 2019.12. 9(23): 5045.（SCI）

[13] De Domenico, Dario, 喬浩帥, 王欽華*, 祝志文， Marano, Giuseppe. Optimal design and seismic performance of Multi-Tuned Mass Damper Inerter (MTMDI) applied to adjacent high-rise buildings. Structural Design of Tall and Special Buildings, 2020.10. 29(14): e1781.（SCI）

[14] 王欽華*, Tiwari, Nayan Deep, 喬浩帥, 王泉. Inerter-based tuned liquid column damper for seismic vibration control of a single-degree-of-freedom structure. International Journal of Mechanical Sciences, 2020.10. 184: 105840.（SCI）

[15] 王欽華*, 田華睿, 喬浩帥, Tiwari, Nayan Deep, 王泉. Wind-induced vibration control and parametric optimization of connected high-rise buildings with tuned liquid-column-damper–inerter. Engineering Structures, 2021.01. 226: 111352.（SCI）

[16] 王欽華, 鄭智元, 喬浩帥, De Domenico, Dario*. Seismic protection of reinforced concrete continuous girder bridges with inerter-based vibration absorbers. Soil Dynamics and Earthquake Engineering, 2023.01. 164.（SCI）

[17] 全湧*, 趙玮偉, 喬浩帥. Improved model for parametric optimization of tuned mass damper-inerter for wind-induced vibration control of high-rise building. Structures, 2023.10. 56: 13. （SCI）

孫嵩泰, 黃鵬*, 喬浩帥. Wind Tunnel Experiments on Flight Characteristics of Windborne Debris upon Low-Rise Building. IOP Conference Series: Earth and Environmental Science, 2021.04. Volume 719, Issue 4（EI，