一、纵向项目

[9]  四川省自然科学基金面上项目, 考虑山区风致大攻角、大变形效应的大跨度悬索桥非线性颤振灾变机理研究，2026.01-2027.12，主持

[8]  中央高校基本科研业务费费专项资金资助，紊流场下大跨度悬索桥非线性气动特性、预测及演化机理研究，2025.01-2026.12， 主持

[7]  国家自然科学基金青年基金项目，超大跨度双层钢桁梁悬索桥三维非线性颤振计算方法及机理研究，2023.01-2025.12，主持

[6]  四川省自然科学基金面上项目, 山区大气湍流影响桥梁-流体耦合非线性自激振子响应的规律及机理, 2022.01-2023.12，主持

[5]  四川省博士后科研项目特别资助经费项目，山区大跨度钢桁梁悬索桥非线性风致随机振动的演化机理及计算方法，三等资助，主持

[4]  中央高校基本科研业务费费专项资金资助，桥梁-流体耦合系统非线性颤振亚临界分岔的动力学机理及计算方法，2021.05-2023.01， 主持

[3]  国家自然科学基金面上项目，考虑耦合气动力和非线性气动力的桥梁颤振分析方法研究，2017.01-2020.12，主研

[2]  国家自然科学基金面上项目，考虑静风效应和振幅影响的超大跨度悬索桥非线性颤振演化机理研究，2024.01-2027.12，主研

[1]  国家自然科学基金面上项目，深切峡谷大跨度悬索桥抖振响应时空分布特性及不确定性预测，2024.01-2027.12，主研

二、横向项目

[1] 舟山秀山大桥施工图阶段抗风性能试验研究，2015年，主研；

[2] 福州至平潭北东口水道特大桥&乌龙江特大桥抗风专题研究，2016年，主研；

[3] 武汉市杨泗港长江大桥科研专题研究，2015年，主研；

[4] 武汉市四环线沌口长江公路大桥施工图阶段抗风性能研究，2014年，主研；

[5] 重庆巫山桂花大桥施工图阶段抗风性能研究，2015年，主研；

[6] 宁波舟山至岱山主通航孔桥初步设计阶段抗风性能研究，2017年，主研；

[7] 武汉市四环线青山长江公路大桥初步设计阶段抗风性能研究，2015年，主研；

[8] 深中通道伶仃洋大桥抗风性能研究，2019年，主研；

[9] 广东省莲花山过江通道双层桥面桁架梁悬索桥方案结构抗风性能研究，2020年，主研；

期刊论文

2026年

[33] 单啸，王骑，伍波. 大跨度悬索桥主梁架设过程颤振主导模态变换研究. 振动与冲击，(2026), 45(4): 1-8. (EI)

[32] Mei H., Hu H., Wu B* (通讯作者)., Yan Y., Liao, H. An Encoder-Decoder analysis framework for the characterization of nonlinear aerodynamic forces and limit cycle flutter of bluff bodies. Journal of Fluids and Structures, (2026).  (SCI, Accepted)

[31] Li  J., Ma C., Wu B* (通讯作者)., Xian R., Liao H. Experimental investigation and mechanism analysis of post-flutter behavior in double-layer flat plate sections. Thin-Walled Structures, (2026), 220, 114372.  (SCI)

2025年

[30] Jing H., Zhao Z., Zhang Y., Yang X., Li W., Liu Q., Wu B* (通讯作者). Numerical study of turbulence effects on aerodynamic forces and flow field around a 4:1 rectangular cylinder using a virtual grid-generated turbulence method. Physics of Fluids, (2025), 37(11), 117135. (SCI)

[29] Wu B., Liao H., Shen H., Liu J., Jiang Y., Li Z*. Nonlinear aeroelastic modeling and limit cycle oscillation characterization of full bridges through rational function approximation. Physics of Fluids, (2025), 37(11), 115107. (SCI)

[28] Wu B., Li, M*., Wu, L., Shen, H., Liao, H., Mei, H. Study on aerodynamic forces and aeroelasticity of an oscillating 5:1 rectangular cylinder in smooth and turbulent flow. Journal of Fluids and Structures, (2025), 137, 104371. (SCI)

[27] Liu J., Yang, Q., Wu B* (通讯作者)., Xu D., Wang, H., Liao, Y., Qiu, E. Grid turbulence on the flutter stability of streamlined box girders in long span bridges. Physics of Fluids, (2025), 37(3), 035124. (SCI)

[26] Li J., Wu B* (通讯作者)., Ma, C., Cui, B., Li, S. Flow patterns and vortex-related characteristics of tandem rectangular structures with recessed corners. Physics of Fluids, (2025), 37(2), 025156. (SCI)

[25] Li J., Ma C*., Wu B** (通讯作者)., Zeng, D. Experimental investigation in nonlinear aerodynamic characteristics of a double-layer truss girder. Journal of Fluids and Structures, (2025), 134, 104284. (SCI)

2024年

[24] Zhang Y., Liao H*., Wu B** (通讯作者)., Zhou Q. A novel multi-modal analytical method focusing on dynamic mechanism of bridge flutter. Computers & Structures, (2024), 294, 107257. (SCI)

[23] 刘君，倪志福，温玉芬，唐煜，邱恩喜，伍波. 悬臂施工阶段大跨度拱桥抖振响应及抑振措施. 空气动力学学报，(2024), 42(X): 1-10. (CSCD)

2023年

[22] Wu B., Zhou Q*., Wang Y., Shen H., Liao H., Liu J. Post critical instability characteristics of a side-box steel concrete composite girder: experimental investigation and mechanism analysis. Journal of Wind Engineering and Industrial Aerodynamics (2023), 240: 105513. (SCI)

[21] Wu B., Shen H*., Liao H., Wang Q.  Investigation of nonlinear and transitional characteristics of flutter varying with wind angles of attack for some typical sections with different side ratios. Journal of Fluids and Structures, (2023), 121: 103934. (SCI)

[20] Wu B., Shen H*., Liao H., Wang Q., Liu J. Identification of amplitude-dependent damping ratio and flutter derivatives of a streamlined box girder under various wind angles of attack. Journal of Bridge Engineering, (2023), 28(7): 04023041. (SCI)

[19] Wu B., Shen H*., Wang Q*., Liao H., Li Z. Identification of the high-order rational function of bridge decks by SDOF forced vibration testing. Journal of Bridge Engineering, (2023), 28(6): 04023024. (SCI)

[18] 刘栩，沈火明，伍波*(通讯作者)，廖海黎. 流线型箱梁颤振形态非线性特征的风洞试验研究. 振动与冲击，(2023), 42(7): 8-17. （EI）

[17] 邢文博，沈火明，伍波*(通讯作者).，廖海黎. 风攻角对某扁平箱梁气动导数及颤振特性的影响. 应用数学和力学, (2023), 44(2): 178-190. (CSCD)

[16] 陈晨，伍波*(通讯作者).，李志国，廖海黎. 基于风洞试验的板桁分离及板桁结合梁颤振性能对比研究. 振动与冲击，(2023), 42(20): 49-58. (EI)

2022年

[15] Wu B., Shen H*., Liao H*., Wang Q., Zhang Y., Li Z.  Insight into the intrinsic time-varying aerodynamic properties of a truss girder undergoing a flutter with subcritical Hopf bifurcation. Communications in Nonlinear Science and Numerical Simulation, (2022), 112: 106472. (SCI)

[14] Wu B., Liao H*., Shen H*., Wang Q., Mei H., Li Z. Multimode coupled nonlinear flutter analysis for long-span bridges by considering dependence of flutter derivatives on vibration amplitude. Computers & Structures, (2022), 260: 106700. (SCI)

[13] Li Z., Wu B*(通讯作者)., Liao H., Li M., Wang Q., Shen H. Influence of the initial amplitude on the flutter performance of a 2D section and 3D full bridge with a streamlined box girder. Journal of Wind Engineering and Industrial Aerodynamics, (2022), 222: 104916. (SCI)

[12] Wang Q., Wu B., Liao H., Mei H. Experimental investigation of amplitude-dependent self-excited aerodynamic foeces on a 5:1 rectangular cylinder. Wind and Structures, (2022), 34(1): 73-80. (SCI)

2021年

[11] Liao H., Mei H., Hu G., Wu B., Wang Q*. Machine learning strategy for predicting flutter performance of streamlined box girders. Journal of Wind Engineering and Industrial Aerodynamics, (2021), 209: 104493. (SCI)

2020年

[10] Wu B., Chen X., Wang Q^*., Liao H., Dong J. Characterization of vibration amplitude of nonlinear bridge flutter from section model test to full bridge estimation. Journal of Wind Engineering and Industrial Aerodynamics, (2020), 197: 104048. (SCI)

[9]  Wu B., Wang Q^*., Liao H., Li Y., Li M. Flutter derivatives of a flat plate section and analysis of flutter instability at various attack angles. Journal of Wind Engineering and Industrial Aerodynamics, (2020), 196: 104046. (SCI)

[8]  Wu B., Wang Q., Liao H*., Mei H. Hysteresis response of nonlinear flutter of a truss girder: experimental investigation and theoretical prediction. Computers & Structures (2020), 238, 106267. (SCI)

[7]  Wu B., Wang Q^*., Liao H., Mei H. Effects of vertical motion on nonlinear flutter of a bridge girder. Journal of Bridge Engineering (2020), 25(11): 04020093. (SCI)

[6]  伍波，王骑，廖海黎，李郁林. 自激气动力有理函数系数的直接识别算法.西南交通大学学报 (2020), 55(02), 247-255. (EI)

[5]  Jiang Y., Liu S*., Zhao N**., Xin J., Wu B. Short-term wind speed prediction using time varying filter-based empirical mode decomposition and group method of data handling-based hybrid model. Energy conversion and management (2020), 220, 113076. (SCI)

2019年

[4]  伍波，王骑，廖海黎. 双层桥面桁架梁软颤振特性风洞试验研究. 振动与冲击，(2019), 39(1): 191-198. （EI）

[3]  伍波，王骑，廖海黎. 扁平箱梁颤振后状态的振幅依存性研究. 中国公路学报，(2019), 32(10): 96-106.（EI）

[2]  伍波，王骑，廖海黎，李志国. 不同风攻角下薄平板断面颤振机理研究. 振动工程学报，(2019), 33(4): 667-678. （EI）

2018年

[1]  伍波, 王骑, 李志国, 廖海黎. 颤振临界风速计算值与试验值的一致性.西南交通大学学报, (2018), 53(3), 517-524. (EI)

会议论文

[1]  伍波，廖海黎，马存明. 考虑脉动风效应的大跨度连续刚构桥等效风荷载分布规律研究. (2015). 第十七届全国结构风工程会议及第三届全国风工程研究生论坛，武汉;

[2]  Wu, B., Wang, Q., Liao, H., Li, Z. Analytical and experimental study of a flat box girder under bimodal coupled flutter onsets. (2017). The 9th Asia-Pacific Conference on Wind Engineering (APCE9), Auckland, New Zealand；

[3]  Wu, B., Chen, X., Wang, Q., Liao, H. Estimation of vibration amplitude of nonlinear bridge flutter. (2019). The 15th International Conference on Wind Engineering (ICWE15), Beijing, China；

[4]  伍波，王骑，廖海黎. 双层桥面桁架梁软颤振特性风洞试验研究. (2019). 第十九届全国结构风工程会议暨第五届全国风工程研究生论坛，厦门;

[5]  Wu, B., Liao, H*. Explanation and prediction on hysteresis response of nonlinear flutter of a bridge girder (2020). The 9th International Colloquium on Bluff Body Aerodynamics and Applications (BBAA9), University of Birmingham, UK；

[6]  伍波，廖海黎，沈火明，王骑. 桁架梁非线性颤振亚临界分岔机理研究. (2021). 第二十届全国结构风工程学术会议, 广州;

[7]  Wu, B., Liao, H., Shen, H. Aerodynamic mechanisms of nonlinear flutter with subcritical Hopf bifurcation of a bridge girder. (2023). The 16th International Conference on Wind Engineering (ICWE16), Florence, Italy.

1. 周鹏，刘君，伍波，胡启军，邹爱华，刘涛，肖鑫，李少鹏，邱恩喜，一种提升大跨度钢桁梁桥气弹稳定性的格栅封槽板装置，实用新型，2024.

2. 孙延国，李明水，廖海黎，胡辉跃，伍波，一种流线型箱梁涡振抑振构造，实用新型，2018.