• 重慶大學土木工程學院歡迎您! English 教師登錄

    個人簡介

    黃國慶,重慶大學教授,江蘇南京人。1997年本科畢業于大連理工大學,2008年博士畢業于美國德州理工大學。隨后在美國知名咨詢公司ABKJ工作。主要從事高層建筑爱彩乐-爱彩乐官网、風機和輸電線塔等結構抗風以及隨機振動等研究工作。在國際著名結構工程和風工程SCI期刊發表論文50。主持國家自然科學基金面上項目和四川省青年項目等多個項目。目前擔任《Wind and Structures》(知名風工程SCI期刊, 2019年影響因子1.922)編委以及兩期特刊客座主編(分別為第一和第二)。并擔任中國空氣動力學會風工程和工業空氣動力學專業委員會委員、中國振動工程學會隨機振動專業委員會委員及美國ASCE Structural Wind Engineering Committee委員等兼職。2009年獲R.D. Marshall杰出博士論文獎,2015年獲得四川省杰青資助爱彩乐-爱彩乐官网,2018年獲得國家科技進步二等獎(排名第5)爱彩乐-爱彩乐官网,2019年獲得重慶市科技進步等獎(排名第1爱彩乐-爱彩乐官网。



    研究方向

    1,高層建筑爱彩乐-爱彩乐官网、風機和輸電塔線等結構抗風爱彩乐-爱彩乐官网;2,隨機振動爱彩乐-爱彩乐官网; 3,風災分析;4,風資源評估和尾流分析


    主講課程
    Structural Dynamics

    學術兼職
    期刊編委/主編            
    國際SCI期刊《Wind and Structures》編委            
    國際SCI期刊《Wind and Structures》特刊“Non-Synoptic Wind I, 26(3), 2018”第二客座主編(Ashraf EI Damatty為第一)            
    國際SCI期刊《Wind and Structures》特刊“Non-Synoptic Wind II, 27(2), 2018”第一客座主編(Ashraf EI Damatty為第二)            
    學術組織理事/委員            

    中國土木工程學會計算機應用分會理事

    中國空氣動力學會風工程和工業空氣動力學專業委員會委員

    中國振動工程學會隨機振動專業委員會委員

    美國ASCE Structural Wind Engineering Committee委員     
    期刊審稿人/其他            
    國際雜志“Journal of Engineering Mechanics, ASCE”爱彩乐-爱彩乐官网、“Journal of Structural Engineering, ASCE”、“Journal of Bridge Engineering, ASCE”、“Journal of Aerospace Engineering, ASCE”、“Journal of Wind Engineering and Industrial Aerodynamics”爱彩乐-爱彩乐官网、“Mechanical Systems and Signal Processing”、 “Probabilistic Engineering Mechanics”、 “Energy”、 “Applied Energy”、 “Proceedings of The Royal Society A - Mathematical Physical And Engineering Sciences”、“Wind and Structures”爱彩乐-爱彩乐官网、“Earthquake Engineering and Engineering Vibration”、“Advances in Structural Engineering”、“Science China Technological Sciences”爱彩乐-爱彩乐官网、 “Stochastic Environmental Research and Risk Assessment” 、“KSCE Journal of Civil Engineering” 、“Engineering Computations”爱彩乐-爱彩乐官网、“Journal of the Brazilian Society of Mechanical Sciences and Engineering”等審稿人            
    國內雜志“振動與沖擊”爱彩乐-爱彩乐官网、“空氣動力學學報”、“實驗流體力學”、“振動工程學報”、“浙江大學學報(工學版)”等審稿人            
    教育部長江學者通訊評審專家(青年長江)            
    參與規范標準等編寫            
    大跨屋蓋抗風設計規范            
    大跨橋梁結構健康監測系統預警閾值設置標準


    主要成果
    科研項目 (主持/參與)            
    縱向項目            

    1). 中央高?爱彩乐-爱彩乐官网;究蒲袠I務費專項資金(SWJTU11CX018),非穩態強風下的高層建筑響應分析,已完成,經費10/主持

    2). 國家自然科學基金高鐵聯合基金重點項目(U1334201),特殊地區高速鐵路風致行車災變控制準則、指揮預警機理及報警控制可靠性研究,2014-2017爱彩乐-爱彩乐官网,經費280/參與

    3). 四川省青年科技創新研究團隊項目(2015TD0004),復雜山區大跨度橋梁抗風性能及橋上行車防災安全性研究,資助金額 100萬元/參與

    4). 四川省基礎研究項目(2015JY0060),艱險山區大跨橋梁處風場實測和橋梁抖振響應分析,2015-2016,經費15/主持

    5). 四川省青年基金項目(2016JQ0005),山區復雜風場下大跨度橋梁的風致振動控制,2016-2018,經費50/主持

    6). 國家自然科學基金面上項目(51578471)爱彩乐-爱彩乐官网,山區峽谷處非平穩強風下大跨度橋梁風振響應和等效靜風荷載研究爱彩乐-爱彩乐官网,2016-2019爱彩乐-爱彩乐官网,經費63/主持

    7). 國家自然科學基金面上項目(51778546),基于漸進破壞的單個和區域低矮房屋風災易損性分析,2018-2021,經費62/主持

    8). 國家自然科學基金國際(地區)合作與交流重點項目(51720105005)爱彩乐-爱彩乐官网,龍卷風等局地強風作用下網絡型基礎設施的局部損毀及災害傳播,2018-2022爱彩乐-爱彩乐官网,子課題經費80/主持,


    其他項目

    海上風電場風機尾流模型和數據庫分析,(中船海裝風電/主持

    云南地區復雜地形流場仿真研究,(中船海裝風電/主持

    中國臺風工業建筑物易損性曲線集,(中再巨災)/主持

    普立特大橋橋址處風觀察研究,(已完成) /主持

    成都銀行大廈抗風試驗研究,(已完成) /主持

    武漢天河機場T3航站樓抗風試驗研究,(已完成) /主持


    發明專利和軟件著作權

    已授權

    1). 一種高頻風速儀測量數據遠程傳輸系統 (第一申請人,專利號201410118627.7

    2). 一種數字傳感信號驅動智能型節能開關系統(第一申請人爱彩乐-爱彩乐官网,專利號201410344577.4

    3). 一種基于遠程控制和數據壓縮的數據無線采集系統(第一申請人,專利號201510979968.8

    4). 一種基于數據的考慮風荷載相關性的屋面板損失估計方法(第一申請人爱彩乐-爱彩乐官网,專利號201610435983.0

    5). 一種用于大風監測的高頻數據遠程傳輸系統(第一申請人,專利號201510178804.5

    6). 一種豎向碰撞型的調諧質量阻尼器(申請人爱彩乐-爱彩乐官网,專利號201711423102.4

    7). 一種考慮風壓關聯性和風速方向性金屬屋面風災估計方法(第二申請人爱彩乐-爱彩乐官网,專利號201611125975.2

    8). 一種用于山區風場模擬的過渡曲線的確定方法(第一申請人爱彩乐-爱彩乐官网,專利號201810319694.3

    9). 一種風荷載效應極值不確定性的分析方法(第一申請人爱彩乐-爱彩乐官网,專利號201710351333.2

    軟件著作權:高層建筑多點風荷載模擬軟件V1.0

    軟件著作權:高層建筑平穩/非平穩動力響應分析軟件V1.0


    發表論文

    1. 國際期刊論文

    1.1 回國前

    1). Guoqing Huang and Xinzhong Chen* (2007) “Wind Load Effects and Equivalent Static Wind Loads of Tall Buildings Based on Synchronous Pressure Measurements.” Engineering Structures, 29(10), 2641-2653. (SCI)

    2). Xinzhong Chen* and Guoqing Huang (2009) “Evaluation of Peak Resultant Response for Wind-Excited Tall Buildings.” Engineering Structures, 31(4), 858-868. (SCI)

    3). Guoqing Huang and Xinzhong Chen* (2009) “Wavelets-Based Estimation of Multivariate Evolutionary Spectra and Its Application to Nonstationary Downburst Winds.” Engineering Structures, 31(4), 976-989. (SCI)

    4). Xinzhong Chen* and Guoqing Huang (2010) “Estimation of Probabilistic Extreme Wind Load Effects: Combination of Aerodynamic and Wind Climate Data.” Journal of Engineering Mechanics (ASCE), 136(6), 747-760. (SCI)

    1.2 2013

    5). Guoqing Huang*, Haili Liao and Mingshui Li (2013) “New Formulation of Cholesky Decomposition and Applications in Stochastic Simulation.” Probabilistic Engineering Mechanics, 34, 40–47. (SCI)

    6). Guoqing Huang*, Xinzhong Chen, Haili Liao, and Mingshui Li (2013) “Predicting of Tall Building Response to Non-stationary Winds Using Multiple Wind Speed Samples.” Wind and Structures, An International Journal, 17(2), 227-244. (SCI)

    1.3 2014

    7). Guoqing Huang* (2014). “An efficient simulation approach for multivariate nonstationary process: Hybrid of wavelet and spectral representation method.” Probabilistic Engineering Mechanics, 37, 74-83. (SCI)

    8). Shuguo Liang, Lianghao Zou*, Dahai Wang and Guoqing Huang (2014). “Analysis of three dimensional equivalent static wind loads of symmetric high-rise buildings based on wind tunnel tests.” Wind and Structures, An International Journal, 19(5), 565-583. (SCI)

    1.4 2015

    9). Peng Hu, Yongle Li*, Guoqing Huang, Rui Kang, Haili Liao (2015). “The appropriate shape of the boundary transition section for a mountain-gorge terrain model in a wind tunnel test.” Wind and Structures, An International Journal, 20(1), 15-36. (SCI)

    10). Guoqing Huang*, Haitao Zheng, Youlin Xu and Yongle Li (2015). “Spectrum models for nonstationary extreme winds.” Journal of Structural Engineering (ASCE), 141(10), 04015010. (SCI)

    11). Yanwen Su, Guoqing Huang* and Youlin Xu (2015). “Derivation of time-varying mean for non-stationary downburst winds.” Journal of Wind Engineering and Industrial Aerodynamics, 141,39-48. (SCI)

    12). Guoqing Huang* (2015). “Application of proper orthogonal decomposition in fast Fourier transform-assisted multivariate nonstationary process simulation.” Journal of Engineering Mechanics (ASCE), 141(7), 04015015. (SCI)

    13). Guoqing Huang*, Hua He, Kishor Mehta and Xiaobo Liu (2015). “Data-based probabilistic damage estimation for asphalt shingle roofing.” Journal of Structural Engineering (ASCE), 141(12), 04015065. (SCI)

    14). Guoqing Huang*, Liuliu Peng, Yanwen Su, Haili Liao and Mingshui Li (2015). “A wireless high-frequency anemometer instrumentation system for field measurements.” Wind and Structures, An International Journal, 20(6), 739-749. (SCI)

    15). Hua He, Guoqing Huang*, Jianming Yin, and Kishor Metha (2015). “Application and validation of an asphalt shingle roofing damage estimation method.” Journal of Wind Engineering and Industrial Aerodynamics, 145, 94-101. (SCI)

    1.4 2016

    16). Guoqing Huang*, Yanwen Su, Ahsan Kareem and Haili Liao (2016). “Time-frequency analysis of nonstationary process based on multivariate empirical mode decomposition.” Journal of Engineering Mechanics (ASCE), 142(1), 04015065. (SCI)

    17). Liuliu Peng, Guoqing Huang*, Ahsan Kareem and Yongle Li (2016). “An efficient space-time based simulation approach of wind velocity field with embedded conditional interpolation for unevenly spaced locations.” Probabilistic Engineering Mechanics, 43, 156-168. (SCI)

    18). Guoqing Huang*, Ying Luo, Kurtis R Gurley, and Jie Ding (2016). “Revisiting moment-based characterization for wind pressures.” Journal of Wind Engineering and Industrial Aerodynamics, 151,158–168. (SCI)

    19). Guoqing Huang*, Xiaowen Ji, Ying Luo, and Kurtis R Gurley (2016). “Damage estimation of roof panels considering wind loading correlation.” Journal of Wind Engineering and Industrial Aerodynamics, 155, 141-148. (SCI)

    20). Ying Luo, Guoqing Huang*, Jie Ding, and Kurtis R Gurley (2016). “Response to “Revisiting moment-based characterization for wind pressures” by G. Huang, Y. Luo, K.R. Gurley and J. Ding.” Journal of Wind Engineering and Industrial Aerodynamics, 158, 162-163. (SCI)

    21). Ying Luo and Guoqing Huang* (2016). “Characterizing dependence of extreme wind pressures.” Journal of Structural Engineering (ASCE), 143 (4), 04016208. (SCI)

    1.4 2017

    22). Liuliu Peng, Guoqing Huang*, Xinzhong Chen, and Ahsan Kareem (2017). “Simulation of Multivariate Nonstationary Random Processes: Hybrid Stochastic Wave and Proper Orthogonal Decomposition Approach.” Journal of Engineering Mechanics (ASCE), 143 (9), 04017064. (SCI)

    23). Yan Jiang and Guoqing Huang* (2017). “Short-term wind speed prediction: Hybrid of ensemble empirical mode decomposition, feature selection and error correction.” Energy Conversion and Management, 144, 340–350. (SCI)

    24). Ning Zhao and Guoqing Huang* (2017). “Fast simulation of multivariate nonstationary process and its application to extreme winds.” Journal of Wind Engineering and Industrial Aerodynamics, 170, 118-127. (SCI)

    25). Guoqing Huang*, Ying Luo, Qingshan Yang and Yuji Tian (2017). “A semi-analytical formula for estimating peak wind load effects based on Hermite polynomial model.” Engineering Structures, 152, 856–864. (SCI)

    1.4 2018

    26). Guoqing Huang*, Xiaowen Ji, Haitao Zheng, Ying Luo, Xinyan Peng and Qingshan Yang (2018). “Uncertainty of Peak Value of Non-Gaussian Wind Load Effect: Analytical Approach.” Journal of Engineering Mechanics (ASCE), 144 (2), 04017172. (SCI)

    27). Xiaowen Ji, Guoqing Huang*, Xinxin Zhang and Gregory A. Kopp (2018). “Vulnerability analysis of steel roofing cladding: Influence of wind directionality.” Engineering Structures, 156, 587-597. (SCI)

    28). Yan Jiang, Guoqing Huang*, Xinyan Peng, Yongle Li and Qingshan Yang (2018). “A novel wind speed prediction method: Hybrid of correlation-aided DWT, LSSVM and GARCH.” Journal of Wind Engineering and Industrial Aerodynamics, 174, 28-38. (SCI)

    29). Lei Wang, Shuguo Liang*, Guoqing Huang, Jie Song, Lianghao Zou (2018). “Investigation on the unstability of vortex induced resonance of high-rise buildings.” Journal of Wind Engineering and Industrial Aerodynamics, 175, 17-31. (SCI)

    30). Ashraf El Damatty, Guoqing Huang* (2018). “Special issue on Non-Synoptic Wind I Preface.” Wind and Structures, An International Journal, 26(3), I-I. (SCI)

    31). Liuliu Peng, Guoqing Huang*, Xinzhong Chen and Qingshan Yang (2018). “Evolutionary Spectra-based Time-varying Coherence Function and Application in Structural Response Analysis to Downburst Winds.” Journal of Structural Engineering (ASCE), 144 (7), 04018078. (SCI)

    32). Guoqing Huang*, Xu Cheng, Liuliu Peng and Mingshui Li (2018). “Aerodynamic shape of transition curve for truncated mountainous terrain model in wind field simulation.” Journal of Wind Engineering and Industrial Aerodynamics, 178, 80-90. (SCI)

    33). Guoqing Huang, Weizhan Liu, Qiang Zhou*, Zhitao Yan and Delong Zuo (2018). “Numerical study for downburst wind and its load on high-rise building.” Wind and Structures, An International Journal, 27(2), 89-100. (SCI)

    34). Guoqing Huang and Ashraf El Damatty* (2018). “Special issue Non-Synoptic Wind II Preface.” Wind and Structures, An International Journal, 27(2), I-I. (SCI)

    1.4 2019

    35). Ning Zhao, Guoqing Huang* (2019). “Efficient nonstationary stochastic response analysis for linear and nonlinear structures by FFT.” Journal of Engineering Mechanics (ASCE), 145(5), 04019023.

    36). Yan Jiang, Guoqing Huang*, Qingshan Yang, Zhitao Yan, Chaofan Zhang (2019). “A novel probabilistic wind speed prediction approach using real time refined variational model decomposition and conditional kernel density estimation.” Energy Conversion and Management, 185, 758-773.

    37). Guoqing Huang, Yan Jiang, Liuliu Peng*, Giovanni Solari, Haili Liao, Mingshui Li (2019). “Characteristics of Intense Winds in Mountain Area Based on Field Measurement: Focusing on Thunderstorm Winds.” Journal of Wind Engineering and Industrial Aerodynamics, 190, 166-182.

    38). Ning Zhao, Guoqing Huang*, Qingshan Yang, Xuhong Zhou, Ahsan Kareem (2019). “Fast convolution integration-based nonstationary response analysis of linear and nonlinear structures with nonproportional damping.” Journal of Engineering Mechanics (ASCE), 145 (8), 04019053.

    39). Fengbo Wu, Guoqing Huang* (2019). “Refined empirical model of typhoon wind field and its application in China.” Journal of Structural Engineering (ASCE), 145(11), 04019122.

    40). Shi Zhang*, Qingshan Yang, Giovanni Solari, Bo Li, Guoqing Huang. (2019). “Characteristics of thunderstorm outflows in Beijing urban area.” Journal of Wind Engineering and Industrial Aerodynamics, 195, 104011.

    1.5 2020

    41). Min Liu, Liuliu Peng*, Guoqing Huang*, Qingshan Yang, Yan Jiang (2020). “Simulation of Stationary Non-Gaussian Multivariate Wind Pressures Using Moment-based Piecewise Hermite Polynomial Model.” Journal of Wind Engineering and Industrial Aerodynamics, 196, 104041.

    42). Fengbo Wu, Guoqing Huang*, Min Liu (2020). “Simulation and Peak Value Estimation of Non-Gaussian Wind Pressures Based on Johnson Transformation Model.” Journal of Engineering Mechanics (ASCE), 146(1), 04019116.

    43). Ning Zhao, Guoqing Huang* (2020). “Wind velocity field simulation based on enhanced closed-form solution of Cholesky decomposition.” Journal of Engineering Mechanics (ASCE)爱彩乐-爱彩乐官网,146(2), 04019128.

    44). Ning Zhao, Guoqing Huang*, Ruili Liu, Peng Zhang, Chengwen Lu, Gangbing Song (2020). “Novel hidden Pounding Tuned Mass Damper for vibration control of a cantilevered traffic signal structure.” Journal of Engineering Mechanics (ASCE), 146(3), 04020005.

    45). Guoqing Huang, Liuliu Peng*, Ahsan Kareem, Chunchen Song (2020). “Data-Driven Simulation of Multivariate Nonstationary Winds: A Hybrid Multivariate Empirical Mode Decomposition and Spectral Representation Method.” Journal of Wind Engineering and Industrial Aerodynamics, 197, 104073.

    46). Liuliu Peng, Min Liu*, Qingshan Yang*, Guoqing Huang, Bo Chen (2020). “An analytical formula for Gaussian to non-Gaussian correlation relationship by moment-based piecewise Hermite polynomial model with application in wind engineering.” Journal of Wind Engineering and Industrial Aerodynamics, 198, 104094.

    47). Xiaowen Ji, Guoqing Huang*, Fengbo Wu, Zhao-Hui Lu, (2020). “Wind-induced hazard assessment for low-rise building envelope considering potential openings.” Journal of Structural Engineering (ASCE), 146(4), 04020039.

    48) Zhihao Li, Guoqing Huang*, Xinzhong Chen, Ying Zhou, Qingshan Yang (2019). “Wind-resistant design and equivalent static wind load of base-isolated tall building: A case study”, Engineering Structures, 212, 110533.

    49). Xiaowen Ji, Guoqing Huang*, Yan-Gang Zhao (2020). “Probabilistic flutter analysis of bridge considering aerodynamic and structural parameter uncertainties.” Journal of Wind Engineering and Industrial Aerodynamics, 201, 104168.

    50). Ning Zhao, Guoqing Huang*, Ruili Liu, Liuliu Peng (2020). “a remote long-term and high-frequency wind measurement system.” Wind and Structures, An International Journal, 刊印中.

    51Xu Cheng, Guoqing Huang*, Qingshan Yang, Xuhong Zhou (2019). “Influence of architectural facades on wind pressures and aerodynamic forces of tall buildings.” Journal of Wind Engineering and Industrial Aerodynamics, (SCI) , 修改中

    52). Fengbo Wu, Guoqing Huang*, (2019). “Refined circular sub-region method in typhoon hazard analysis.” Journal of Wind Engineering and Industrial Aerodynamics, (SCI) , 修改中

    53). Ning Zhao, Guoqing Huang* (2020). “Simulating ergodic multivariate stochastic processes by two-dimensional FFT.” Journal of Wind Engineering and Industrial Aerodynamics , 修改中

    2. 其他期刊論文

    1). Guoqing Huang*, Xinzhong Chen, Joan Zhong Brisbois (2013) “Earthquake-Resisting System Optimization and Pushover Analysis in Seismic Design of Approach Spans of New South Park Bridge.” Practice Periodical on Structural Design and Construction, ASCE, 18(4), 238–246.

    2). Guoqing Huang*, Xinzhong Chen, Mingshui Li, Liuliu Peng, (2013) “Extreme Value of Wind-excited Response Considering Influence of Bandwidth.” Journal of Modern Transportation, 21(2), 125-134.

    3) Yanwen Su, Guoqing Huang*, Liuliu Peng (2014), “Time-Frequency Analysis of Non-stationary Ground Motions Via Multivariate Empirical Mode Decomposition.” Applied Mechanics and Materials, 580-583, 1734-1741.

    4) 彭留留,黃國慶*,馬存明,蘇延文(2015). “演化功率譜解耦及其工程應用”,西南交通大學學報. 50(2), 319-324,330.

    5) 彭留留,黃國慶*,李明水,袁理明,羅楠(2015). “某機場新航站樓風壓分布特征及風振系數研究”, 空氣動力學學報.33(4), 1-8.

    6) 蘇延文,黃國慶*,彭留留(2015). “與反應譜相容的多點完全非平穩地震動隨機過程的快速模擬”,工程力學.32(8), 141-148.

    7) 黃國慶*,蘇延文,彭留留,馬存明,廖海黎,李明水 (2015). “山區風作用下大跨懸索橋響應分析”,西南交通大學學報. 50(4), 610-616.

    8) 黃國慶*,彭留留,廖海黎爱彩乐-爱彩乐官网,李明水 (2016). “普立特大橋橋位處山區風特性實測研究”,西南交通大學學報. 51(2), 349-356.

    9) 姜言爱彩乐-爱彩乐官网,黃國慶*,彭新艷,李永樂 (2016). “基于GARCH的短時風速預測方法”,西南交通大學學報. 51 (4), 663-669,742.    

    10) 黃國慶*爱彩乐-爱彩乐官网,羅穎爱彩乐-爱彩乐官网,鄭海濤爱彩乐-爱彩乐官网,劉小波,何華 (2016). “考慮風速變異性的風致屋面覆蓋物損失評估”, 土木工程學報. 49(9), 64-71.

    11) 楊成,唐澤楠,常志旺,黃國慶爱彩乐-爱彩乐官网,徐騰飛* (2017).“基于經驗模態分解的速度脈沖型地震動量化識別”, 工程力學. 34(4), 206-212.

    12)冀驍文,黃國慶*爱彩乐-爱彩乐官网,羅穎,張娟,(2018).“基于Copula函數考慮風荷載相關性的屋面風致易損性分析”,建筑結構學報. 39(2),138-145.

    13)羅穎爱彩乐-爱彩乐官网,黃國慶*爱彩乐-爱彩乐官网,楊慶山,田玉基(2018).“基于高階矩的非高斯風壓極值計算”,建筑結構學報. 39(2),146-152.

    14) 冀驍文爱彩乐-爱彩乐官网,彭新艷爱彩乐-爱彩乐官网,黃國慶*,羅穎 (2018).“低矮房屋風致結構響應極值不確定性分析,土木工程學報. 51(5), 68-74.

    15) 羅穎,黃國慶*,李明水,彭留留 (2018). “基于風洞數據的低矮房屋雙坡屋面風壓非高斯特性”, 空氣動力學學報.36(4), 577-584.

    16) 羅穎,黃國慶*,陳寶珍,劉威展,李明水,廖海黎 (2018).“基于短期實測數據的普立大橋設計風速推算,工程力學. 35(7), 74-82.

    17) 楊慶山*,田玉基爱彩乐-爱彩乐官网,陳 波爱彩乐-爱彩乐官网,黃國慶(2018).“行業標準《屋蓋結構風荷載標準》的主要內容爱彩乐-爱彩乐官网,工程力學. 35(7), 1-6.

    18) 蘇延文, 黃國慶. (2018). “時變地震譜估計的非參數方法評價及應用,地震工程學報, 40(2), 233-240.

    19) 徐高揚,鄭海濤爱彩乐-爱彩乐官网,黃國慶*,吳鳳波 (2019). 基于門控單元循環神經網絡的臺風路徑預測,計算機應用與軟件,36(5), 119-125.

    20) 陳巧菊,劉敏*爱彩乐-爱彩乐官网,黃國慶爱彩乐-爱彩乐官网,鄭海濤 (2019).龍卷風參數趨勢性和相關性特征分析爱彩乐-爱彩乐官网,自然災害學報爱彩乐-爱彩乐官网,28(4), 111-121.

    21) 宋淳宸,蘇延文,黃國慶*,劉瑞莉,楊成 (2019). “基于多元EMD-AM/FM分解的多點非平穩雷暴風速模擬,工程力學,36(7), 109-115,125.

    22) 李藝,黃國慶,程旭,趙麗娜爱彩乐-爱彩乐官网,(2019) . “移動型下擊暴流及其作用下高層建筑風荷載的數值模擬爱彩乐-爱彩乐官网,工程力學, 37(3), 176-187.

    23) 吳鳳波,冀驍文,黃國慶,趙衍剛.(2019)基于簡化漸進破壞的低矮房屋風致易損性分析.建筑結構學報. https://doi.org/10.14006/j.jzjgxb.2019.0199

    24) 吳鳳波,黃國慶,劉敏,彭留留,(2019) 非高斯風壓極值估計:基于矩的轉換過程法的抽樣誤差對比研究,振動與沖擊


    其他國際國內會議論文(含大會報告爱彩乐-爱彩乐官网、特邀報告)            
    3. 國際國內會議論文            
    3.1 大會報告            
    1) Guoqing Huang (2014),“Nonstationary Excitations: Characterization, Modeling and Simulation (Keynote speech).” 4th International Conference on Civil Engineering, Architecture and Building Materials, Haikou, China, 05/24-05/25.            
    2) 黃國慶 (2014),“大跨度橋梁的抗風設計新進展.” 首屆中國橋梁工程技術創新論壇, 武漢, 中國, 10/30-10/31.            
    3) 黃國慶 (2017),“風荷載效應概率分析:極值、不確定性和易損性.” 2017未來建筑大會爱彩乐-爱彩乐官网,三亞,中國爱彩乐-爱彩乐官网,12/01-12/02.5)            
    4) 黃國慶 (2018), “非平穩強風及結構風效應分析”, 首屆中國空氣動力學大會風工程主題會議,綿陽, 08/15-08/18.            
    5)黃國慶 (2018), “Nonstationary winds and wind load effects”, 第一屆高性能風電設施及其高效運行與風敏感基礎設施抗風減災國際研討會,重慶,10/18-10/19.            
    6)黃國慶 (2018), “非平穩強風及其結構風效應分析”,第十一屆全國隨機振動理論與應用學術會議暨第七屆全國隨機動力學學術會議,湖北宜昌,10/12-14.            
    3.2 特邀報告            
    1) Guoqing Huang (2015), “An Efficient Simulation for Multivariate Nonstationary Processes Using Proper Orthogonal Decomposition”, 第二屆土木工程防災減災青年學者學術會議,武漢, 11/20-11/22.            
    2) 黃國慶 (2015), “非平穩強風作用下的結構動力分析”, 全國結構工程與防災減災優秀青年學者論壇,廣州, 12/4-12/5.            
    3) 黃國慶,彭留留(2016),“一種基于隨機場的多點均質風場快速模擬方法”, 第十屆全國隨機振動理論與應用學術會議暨第五屆全國隨機動力學學術會議, 福州,11/02-11/06.            
    4) 黃國慶 (2016), “風荷載和響應的概率分析:極值、不確定性和易損性”, 全國結構工程與防災減災優秀青年學者論壇,長沙, 11/24-11/25.            
    5) 黃國慶 (2017),“風荷載概率評估:極值爱彩乐-爱彩乐官网,不確定性和結構易損性.” 第三屆土木工程防災減災青年學者學術會議 ,成都,中國爱彩乐-爱彩乐官网,11/25-11/26.            
    6) 黃國慶 (2018),“風荷載效應概率評估:理論與應用.” 第十屆全國結構設計基礎與可靠度學術會議,重慶,11/9-11.            
    7) 黃國慶 (2018),“基于概率的高層建筑抗風設計.” 《建筑結構學報》創刊四十周年紀念暨第五屆建筑結構基礎理論與創新實踐論壇第十屆全國結構設計基礎與可靠度學術會議爱彩乐-爱彩乐官网,重慶,12/16-18.            
    8) 黃國慶 (2018),“非線性結構在非平穩激勵作用下的高效分析.” 第二屆(2018)結構復雜行為學術研討會,杭州,12/13-15.

    獲獎情況

    2008年榮獲美國德州理工大學夏季博士論文獎(每年一次,夏季評出)。

    2009年在第十一屆全美洲風工程大會上獲得Richard D. Marshall杰出博士論文獎。

    2016年第十屆全國隨機振動理論與應用學術會議暨第五屆全國隨機動力學學術會議獲得青年學者優秀論文獎。

    2018年獲得國家科技進步二等獎(排名第5大型屋蓋及圍護體系抗風防災理論、關鍵技術和工程應用

    2019年獲得重慶市科技進步等獎(排名第1“山地高柔結構抗風研究與工程應用”


    研究生培養

    1. 畢業生工作去向

    2011級博士生:蘇延文(協助秦順全院士),中鐵二院

    2012級博士生:彭留留,重慶大學講師

    2013碩士(后轉博士):羅穎,長沙理工大學講師

    2013碩士(后轉博士)姜言,西南大學講師

    2014碩士(后轉博士):冀驍文,北京工業大學師資博士后

    2015級博士生:趙寧,四川農業大學講師

    2016級博士生:吳鳳波,重慶交通大學講師

    碩士畢業后爱彩乐-爱彩乐官网,主要去向:設計院、甲方單位爱彩乐-爱彩乐官网、政府單位以及出國深造
                
    2. 學生所獲獎勵            
    2.1 論文獎勵            
    蘇延文2015年第十七屆全國結構風工程學術會議暨第三屆全國風工程研究生論壇研究生論文二等獎            
    宋淳宸2018年首屆中國空氣動力學大會青年優秀論文獎            
    李藝2018年首屆中國空氣動力學大會青年優秀論文獎            
               
    2.2國獎            

    彭留留2015博士研究生國家獎學金

    彭新艷 2015年碩士研究生國家獎學金

    羅穎2016博士研究生國家獎學金

    姜言2016年博士研究生國家獎學金

    趙麗娜2017年碩士研究生國家獎學金

    吳鳳波2018博士研究生國家獎學金         
                
    2.3 優秀博士論文            
    彭留留、羅穎二位博士分別獲得2017、2018年西南交通大學優秀博士論文            
               
    3. 新生招收            
    每年預計招收博士研究生1-2名爱彩乐-爱彩乐官网,碩士研究生3-5名。            
    良好的數學、力學和英語基礎,吃苦耐勞的精神,較強的團隊合作意識。


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