[1] Li Dawei, Ikago Kohju, Yin Ao. Structural dynamic vibration absorber using a tuned inerter eddy current damper. Mechanical Systems and Signal Processing 2023; 186: 109915.doi: 10.1016/j.ymssp.2022.109915. (IF: 8.93 JCR分区: Engineering, Q1) [2] Li,Dawei, Ikago Kohju, Optimal Design of Nontraditional Tuned Mass Damper for Base-Isolated Building. Journal of Earthquake Engineering 2022.1–23. https://doi.org/10.1080/13632469.2022.2123413 (IF: 3.00 JCR分区: Engineering, Q2) [3] Li Dawei, Tang Hesheng, Xue Songtao, Robust design of tuned mass damper with hybrid uncertainty. Structural control and health monitoring. 2021. 06. (IF: 6.06 JCR分区: Engineering, Q1) [4] Li Dawei, Tang Hesheng, Xue Songtao, Guo Xueyuan. Reliability analysis of nonlinear dynamic system with epistemic uncertainties using hybrid Kriging-HDMR. Probabilistic engineering mechanics. 2019, Vol 58, 103001, 1~13, (IF: 2.95 JCR分区: Engineering, Q2) [5] Li Dawei, Tang Hesheng, Xue Songtao, Su Yu. Adaptive sub-interval perturbation-based computational strategy for epistemic uncertainty in structural dynamics with evidence theory. Probabilistic engineering mechanics. 2018, Vol 53, 75-86, (IF: 2.95 JCR分区: Engineering, Q2) [6] Guo Jia, Enokida Ryuta, Li Dawei, Ikago Kohju. Combination of physics‐based and data‐driven modeling for nonlinear structural seismic response prediction through deep residual learning[J]. Earthquake Engineering & Structural Dynamics, 2023: eqe.3863, (IF: 4.5 JCR分区: Engineering, Q2) [7] Tang Hesheng, Li Dawei, Li Jingjing, Xue Songtao. Epistemic uncertainty quantification in metal fatigue crack growth analysis using evidence theory. International Journal of Fatigue. 2017, Vol 99, Part 1: 163-174. (IF: 5.49 JCR分区: Engineering, Q1) [8] Tang Hesheng, Li Dawei, Deng Lixin, Xue Songtao. Evidential uncertainty quantification of the Park-Ang damage model in performance based design. Engineering Computations. 2018, Vol 37(7), 2480-2501, (IF: 1.68 JCR分区: Engineering, Q3) [9] Li Dawei, Ikago Kohju, Xue Songtao. Optimal design of tuned mass damper inerter for base-isolated buildings. 8th Asia Pacific Workshop on Structural Health Monitoring, 2020. [10] Li Dawei, Ikago Kohju, Xue Songtao. Optimization of tuned inerter dampers for base-isolated buildings. 日本建築学会大会学術講演梗概集, 2020. [11] Li Dawei, Ikago Kohju, Xue Songtao, Ban Xinlei. Optimal design of tuned eddy current inerter damper. 日本建築学会東北支部研究報告集, 2020. [12] Li Dawei, Xue Songtao, Ikago Kohju, Xie Liyu, Luo Hao. Theoretical analysis of a novel eddy current inerter damper part1: study of mechanical behavior. 日本建築学会東北支部研究報告集, 2019. [13] Li Dawei, Ikago Kohju, Xue Songtao, Xie Liyu, Luo Hao. Theoretical analysis of a novel eddy current inerter damper part 2: parameter analysis. 日本建築学会東北支部研究報告集, 2019. [14] Li Dawei, Ikago Kohju, Xue Songtao, Luo Hao. Theoretical analysis and experimental validation of a novel eddy current inerter damper part 1: semianalytical method for eddy current effect. 日本建築学会大会学術講演梗概集, 2019. [15] Xue Songtao, Li Dawei, Ikago Kohju, Luo Hao. Theoretical analysis and experimental validation of a novel eddy current inerter damper part 2: nonlinear simulation and experimental validation. 日本建築学会大会学術講演梗概集, 2019. [16] 李大伟, 白贺, 韩建平, 袁琦. 调谐惯容系统的混合隔震体系一致性优化设计[J]. 地震工程学报, 2022, 44(6): 1300–1308. [17] 李大伟, 袁琦, 韩建平, 白贺. 跨层布置调谐黏滞质量阻尼器优化设计[J]. 土木工程学报, 2022, 55(S1): 1–8. [18] 李大伟, 唐和生, 姚雯, 薛松涛. 结构固有频率不确定分析的证据理论方法. 振动工程学报, 2017, Vol 30(6) 904-912. [19] 李大伟, 薛松涛, 谢丽宇. 旋转电涡流惯容装置阻尼机制研究. 第十一届全国结构减震控制学术会议, 2019. [20] Li Dawei, Tang Hesheng, Ikago Kohju, Xue Songtao. Dynamic reliability of nonlinear structural system with uncertain parameters of passive damper. 17th World Conference on Earthquake Engineering, 2020. [21] Li Dawei, Tang Hesheng, Zhao Jinhai, Su Yu. Park-Ang damage model uncertainty quantification using evidence theory. 16th World Conference on Earthquake Engineering. Santiago, Chile: 2017: 13. [22] Tang Hesheng, Li Dawei, Chen Wei, Xue Songtao. Uncertainty quantification using evidence theory in concrete fatigue damage prognosis. 2016 IEEE International Conference on Prognostics and Health Management (ICPHM). Ottawa, ON, Canada: IEEE, 2016: 1–7. [23] 唐和生, 李大伟, 苏瑜, 赵金海. 人工神经网络预测混凝土柱屈服性能[J]. 湖南大学学报(自然科学版), 2015, 42(11). 17-24. [24] Tang Hesheng, Li Dawei, Yao Wen, Xue Songtao. NATURAL FREQUENCIES OF A STRUCTURE WITH EPISTEMIC UNCERTAINTY. Proceedings of the 1st International Conference on Uncertainty Quantification in Computational Sciences and Engineering (UNCECOMP 2015). Crete Island, Greece: Institute of Structural Analysis and Antiseismic Research School of Civil Engineering National Technical University of Athens (NTUA) Greece, 2015: 200–208. |