Google Scholar: https://scholar.google.com/citations?user=2glt3KQAAAAJ&hl=en

ResearchGate: https://www.researchgate.net/profile/Genshen-Fang

Scopus: https://www.scopus.com/authid/detail.uri?authorId=57189986856&eid=2-s2.0-85083917483

一、期刊论文

[1] Fang G. S., Wang J. Q., Li S., Zhang S. B., 2016. Dynamic characteristics analysis of partial-interaction composite continuous beams. Steel and Composite Structures, 21(1): 195-216. (Q1, IF = 4.6)

[2] Fang G. S., Zhao L., Cao S. Y., Ge Y. J., Pang W., 2018. A novel analytical model for wind field simulation under typhoon boundary layer considering multi-field parameters correlation, Journal of Wind Engineering and Industrial Aerodynamics, 175: 77-89. (Q1, IF = 4.8)

[3] Fang G. S., Zhao L., Song L. L., Liang X. D., Zhu L. D., Cao S. Y., Ge Y. J., 2018. Reconstruction of radial parametric pressure field near ground surface of landing typhoons in northwest Pacific Ocean. Journal of Wind Engineering and Industrial Aerodynamics, 183: 223-234. (Q1, IF = 4.8)

[4] Fang G. S., Zhao L., Cao S. Y., Ge Y. J., Li K., 2019. Gust characteristics of near-ground typhoon winds. Journal of Wind Engineering and Industrial Aerodynamics, 188: 323-337. (Q1, IF = 4.8)

[5] Fang G. S., Cao J. X., Yang Y. X., Zhao L., Ge Y. J., 2020. Experimental uncertainty quantification of flutter derivatives for a P-K section girder and its application on probabilistic flutter analysis. Journal of Bridge Engineering, ASCE, 25(7): 04020034. (Q2, IF = 3.6)

[6] Fang G. S., Zhao L., Chen X., Cao J. X., Cao S. Y., Ge Y. J., 2020. Normal and typhoon wind loadings on a large cooling tower: a comparative study. Journal of Fluid and Structures, 95: 102938. (Q2, IF = 3.6)

[7] Fang G. S., Zhao L., Cao S. Y., Zhu L. D., Ge Y. J., 2020. Estimation of tropical cyclone wind hazards in coastal regions of China. Natural Hazards and Earth System Sciences (NHESS), 20: 1617-1637. (Q1, IF = 4.6)

[8] Fang G. S., Pang W., Zhao L., Rawal P., Cao S. Y., Ge Y. J., 2021. Toward a refined estimation of typhoon wind hazards: parametric modeling and upstream terrain effects. Journal of Wind Engineering and Industrial Aerodynamics, 209: 104460. (Q1, IF = 4.8)

[9] Liu P., Zhao L., Fang G. S., Ge Y. J., 2021. Explicit polynomial regression models of wind characteristics and structural effects on a long-span bridge utilizing onsite monitoring data. Structural Control and Health Monitoring, e2705. (Q1, IF = 5.4)

[10] Fang G. S., Pang W., Zhao L., Cui W., Zhu L. D., Cao S. Y., Ge Y. J., 2021. Extreme typhoon wind speed mapping for coastal region of China: a geographically-weighted-regression-based circular subregion algorithm. Journal of Structural Engineering, 147(10): 04021146. (Q2, IF = 4.1)

[11] Liu S. Y., Zhao L., Fang G. S., Hu C. X., Ge Y. J., 2021. Investigation on aerodynamic force nonlinear evolution for a central-slotted box girder under torsional vortex-induced vibration. Journal of Fluid and Structures, 106: 103380. (Q2, IF = 3.6)

[12] Liu S. Y., Zhao L., Fang G. S., Hu C. X., Ge Y. J., 2022. Nonlinear characteristics and modeling of self-excited forces for a quasi-flat plate in the torsional degree of freedom: effects of the angle of attack and vibration amplitude. Nonlinear Dynamics, 107: 2027–2051. (Q1, IF = 5.6)

[13] Fang G. S., Pang W., Zhao L., Xu K., Cao S. Y., Ge Y. J., 2022. Tropical-cyclone-wind-induced flutter failure analysis of long-span bridges. Engineering Failure Analysis, 132: 105933. (Q2, IF = 4.0)

[14] Xu K., Dai Q., Bi K. M., Fang G. S., Zhao L., 2022. Multi-mode vortex-induced vibration control of long-span bridges by using distributed tuned mass damper inerters (DTMDIs). Journal of Wind Engineering and Industrial Aerodynamics, 224: 104970. (Q1, IF = 4.8)

[15] Xu K., Dai Q., Bi K. M., Fang G. S., Ge Y. J., 2022. Closed-form design formulas of TMDI for suppressing vortex-induced vibration of bridge structures. Structural Control and Health Monitoring, 29: e3016. (Q1, IF = 5.4)

[16] Yi G. X., Pan J. J., Zhao L., Song L. L., Fang G. S., Cui W., Ge Y. J., 2022. Profiles of mean wind and turbulence intensity during strong typhoon landfall. Journal of Wind Engineering and Industrial Aerodynamics, 228: 105106 (Q1, IF = 4.8)

[17] Liu Z. H., Fang G. S.*, Zhao L., Cao S. Y., Ge Y. J., 2022. A case study of gust factor characteristics for typhoon Morakat observed by distributed sites. Wind and Structures, 35(1): 21-34. (Q3, IF = 1.6)

[18] Fang G. S., Wei M. M., Zhao L., Xu K., Cao S. Y., Ge Y. J., 2022. Site- and building height-dependent design extreme wind speed vertical profile of tropical cyclone. Journal of Building Engineering, 62: 105322. (Q1, IF = 6.4)

[19] Liu Z. H., Fang G. S.*, Hu X. N., Xu K., Zhao L., Ge Y. J., 2022. Stochastic power spectra models for typhoon and non-typhoon winds: a data-driven algorithm. Journal of Wind Engineering and Industrial Aerodynamics, 231: 105214. (Q1, IF = 4.8)

[20] Hu X. N., Fang G. S.*, Yang J. Y., Zhao L., Ge Y. J., 2023. Simplified models for uncertainty quantification of extreme events using Monte Carlo technique. Reliability Engineering and System Safety, 230: 108935. (Q1, IF = 8.1)

[21] Li K., Yang Q. S., Wang X., Li S. P., Hui Y., Fang G. S., Qian G. W., 2024. The impact of the wind attack angle on a typical bridge deck’s flutter behavior by the distributed aerodynamic characteristics method. Journal of Vibration and Control, 30(3-4): 727–739. (Q2, IF = 2.8)

[22] Ma T., Cui W., Zhao L., Ding Y., Fang G. S., Ge Y. J., 2023. Extreme wind speed prediction in mountainous area with mixed wind climates. Stochastic Environment Research and Risk Assessment, 37: 1163-1181. (Q1, IF = 4.2)

[23] Li Z., Xu K., Ma R., Fang G. S., Han Q., 2023. Vibration control of irregular bridges using spatially distributed TMD-type counterweights. International Journal of Structural Stability and Dynamics, 2350127. (Q2, IF = 3.6)

[24] Wei M. M., Fang G. S.*, Zhao L., Wang Z. C., Wang J., Cao S. Y., Ge Y. J., 2023. Comparative study of typhoon wind hazard estimation in coastal region of China using different wind field parameter models. Journal of Wind Engineering and Industrial Aerodynamics, 236: 105398. (Q1, IF = 4.8)

[25] Zheng J., Fang G. S.*, Wang Z. L., Zhao L., Ge Y. J., 2023. Shape optimization of closed-box girder considering dynamic and aerodynamic effects on flutter: a CFD-enabled and Kriging surrogate-based strategy. Engineering Applications of Computational Fluid Mechanics, 17: 1, 2191693. (Q1, IF = 6.1)

[26] Xu S. Y., Fang G. S.*, Zhao L., Ge Y. J., Zhang J. F., 2023. Aerodynamic and aerostatic performance of a long-span bridge with wide single box girder installed with vertical and horizontal stabilizers. Journal of Structural Engineering, 149(8): 04023106. (Q2, IF = 4.1)

[27] Wang Z. L., Zhao L., Chen H. L., Fang G. S., Li K., Ge Y. J., 2023. Flutter control of active aerodynamic flaps mounted on streamlined bridge deck fairing edges: an experimental study. Structural Control and Health Monitoring, 997003. (Q1, IF = 5.4)

[28] Liu Z. H., Fang G. S.*, Zhao L., Ge Y. J., 2023. Uncertainty propagation of turbulence parameters for typhoon and non-typhoon winds in buffeting analysis of long-span bridges. Engineering Structures, 291: 116491. (Q1, IF = 5.5)

[29] Xu S. Y., Fang G. S.*, Øiseth O., Zhao L., Ge Y. J., 2023. Experimental study on distributed aerodynamic forces of parallel box girders with various slot width ratios and aerodynamic countermeasures during vortex-induced vibration. Journal of Wind Engineering and Industrial Aerodynamics, 240: 105493. (Q1, IF = 4.8)

[30] Fang G. S., Liu Z. H., Pang W., Zhao L., Xu K., Cao S. Y., Ge Y. J., 2024. Probabilistic gust factor model of typhoon winds. Journal of Structural Engineering, 150(1): 04023205. (Q2, IF = 4.1)

[31] Xu S. Y., Fang G. S.*, Zhang M. J., Øiseth O., Zhao L., Ge Y. J., 2023. Optimization of tuned mass dampers for multiple mode vortex-induced vibration mitigation in flexible structures: an application to multi-span continuous bridge. Mechanical Systems and Signal Processing, 205: 110857. (Q1, IF = 8.4)

[32] Hu X. N., Fang G. S.*, Ge Y. J., 2024. Uncertainty propagation of flutter derivatives and structural damping in buffeting fragility analysis of long-span bridges using surrogate models. Structural Safety, 106: 102410. (Q1, IF = 5.8)

[33] Wei M. M., Fang G. S.*, Ge Y. J., 2023. Tropical cyclone genesis prediction based on support vector machine considering effects of multiple meteorological parameters. Journal of Wind Engineering and Industrial Aerodynamics, 236: 105398. (Q1, IF = 4.8)

[34] Zhao L., Wang Z. L.*, Fang G. S.*, Zheng J., Li K., Ge Y. J., 2024. Flutter performance simulation on streamlined bridge deck with active aerodynamic flaps. Computer-Aided Civil and Infrastructure Engineering, 1-21. 

[35] Wang Z. L., Zhao L., Fu Y. H., Fang G. S., Cui W., Li K., Ge Y. J., 2024. Flutter control optimization for a 5000 m suspension bridge with active aerodynamic flaps: a CFD-enabled strategy. Engineering Structures, 303: 117457. (Q1, IF = 5.5)

[36] Ge Y. J., Wen Z. P., Fang G. S.*, Lou W. J., Xu H. W., Wang G. J., 2024. Explicit solution framework and new insights of 3-DOF linear flutter considering various frequency relationships. Engineering Structures, Accepted. (Q1, IF = 5.5)

[37] 方根深, 杨詠昕, 葛耀君, 周志勇. 半开口分离双箱梁涡振性能及其气动控制措施研究, 土木工程学报, 2017, 50(3): 74-82.

[38] 方根深, 杨詠昕, 葛耀君. 大跨度桥梁PK箱梁断面颤振性能研究, 振动与冲击, 2018, 37(9): 25-31.

[39] 方根深, 赵林, 梁旭东, 宋丽莉, 朱乐东, 葛耀君. 基于强台风“ 黑格比”的台风工程模型场参数在中国南部沿海适用性研究, 建筑结构学报, 2018, 39 (2): 106-113.

[40] 方根深, 赵林, 宋丽莉, 葛耀君. 基于多场参数相关台风工程模型的上海地区台风设计风环境研究, 建筑结构学报, 2019, 40 (7): 13-22.

[41] 赵林, 杨绪南, 方根深, 崔巍, 宋丽莉, 葛耀君. 超强台风山竹近地层外围风速剖面演变特性现场实测, 空气动力学学报, 2019, 37 (1): 43-54.

[42] 方根深, Weichiang Pang, 赵林, 曹曙阳, 葛耀君. 我国东南沿海台风极值风速预测与区划图构建, 土木工程学报, 2021, 54 (7): 43-53.

[43] 方根深, 赵林, 卫苗苗, 李珂, 葛耀君. 沿海典型大跨桥梁桥址区台风极端风荷载预测与应用, 同济大学学报, 2021, 49(10): 1390-1398.

[44] 赵林, 程樾, 刘圣源, 方根深, 崔巍, 葛耀君. 桥梁主梁颤振临界风速预测的瞬时功率平衡算法, 土木工程学报, 2022.

[45] 顾水涛, 钟胜, 李珂, 刘敏, 方根深. 基于本构均一化理论的多层复合材料流固耦合等效分析方法, 河海大学学报, 2022.

[46] 刘继久, 刘圣源, 方根深*, 程樾, 徐胜乙, 赵林, 葛耀君, 2023. 流线型闭口箱梁大攻角颤振性能及演变机理研究. 中国公路学报, 36(11): 432-440.

[47] 胡小浓, 方根深*，赵林，葛耀君, 2023. 基于Monte Carlo方法的极值风速估计误差分析及其应用, 建筑结构学报, 2023, 44(3): 175-184.

[48] 赵林, 方根深*，展艳艳，陈逸群，葛耀君. 基于试验设计与代理模型的中央开槽箱梁气动外形优化方法, 桥梁建设, 2023, 52(6).

[49] 徐胜乙, 方根深*, 赵林, 葛耀君. 双幅钢箱梁竖弯涡振气动力演变特性, 振动工程学报, 2024.

[50] 赵林, 王达, 方根深, 崔巍, 葛耀君. 流线箱梁弯扭耦合气动力非线性特性与颤振行为预测, 中国公路学报, 2024.

[51] 王子龙, 赵林, 崔巍, 方根深, 李珂, 葛耀君, 2023. 神经网络驱动的桥梁主动气动翼板颤振智能控制优化, 中国公路学报, 36(08): 32-41.

二、专著

[1] 《中国桥梁》（2013-2023），人民交通出版社，参编.