2024 年 07 月 16 日
人才队伍列表
胡进军
发布时间:2016/12/30

胡进军

博士,研究员,博士生导师

中国地震局工程力学研究所 工程地震研究中心

电话:0451-86652426

Emailhujinjun@iem.ac.cn

 

 

胡进军,1978年生,河北人,中国地震局工程力学研究所研究员、地震作用与地震区划创新团队成员、中国地震局骨干人才、黑龙江省头雁团队骨干,主要从事海陆地震动特征、预测模型、强度指标、设计地震动与地震动场模拟等研究工作,主持国家自然科学基金项目、973项目子课题、重点研发项目子课题、国家自然科学基金重点项目子课题和国际合作项目子课题等20多项科研项目,发表学术论文100余篇,SCI/EI收录70余篇,获得专利多项,编写《建筑工程性态抗震设计通则》等地震行业标准4部,获国家科技进步一等奖1项、省部级科技进步一等奖3项,培养硕、博研究生20余名。

 

研究方向:

面向性态和韧性抗震设计和评估的需求,以地震工程学和结构抗震理论为基础,基于数据统计分析和数值模拟方法,聚焦海陆域强地震动特征与强度指标研究,为城市和工程提供科学合理的设计地震动。

[1] 地震动特征机理预测模型

[2] 海域地震动预测模型与场地效应

[3] 地震动强度指标与设计地震动

[4] 城市和区域的情景地震动场构建

主持项目:

[1] 国家自然科学基金面上项目:海域地震动模型、不确定性及强度指标研究(52078470)

[2] 国家自然科学基金面上项目:海域复杂地震地质环境下的地震动特征及其传播机制研究(51578516)

[3] 国家自然科学基金青年项目:断层超剪切破裂对近断层地震动方向性效应工程特性的影响(50808166)

[4] 国家重点研发计划项目子课题:多参数宽频带海域地震动预测模型研究 (2022YFC3003503)

[5] 国家重点研发计划项目子课题:海域场地效应与设计地震动 (2021YFC3100701)

[6] 国家重点研发计划项目子课题:海域地震的强震动记录特征研究(2017YFC15004031)

[7] 国家重点研发计划项目子课题:基于不同地震构造环境的城市地震场构建方法(2018YFC15044011)

[8] 国家重点基础研究发展计划(973计划)项目子课题:近海域地震动特性及其衰减规律(2011CB013601)

[9] 国家自然科学基金重点项目子课题:城市环境下地震动场的特征及其确定方法(U193920036)

[10] 国家自然科学基金重点项目子课题:核电厂设计地震动参数的确定(512380121)

代表论著:

[1] Hu Jinjun, Yitian Ding, Hui Zhang, Chaoyue Jin, Zhongwei WangA RealTime Seismic Intensity Prediction Framework Based on Interpretable Ensemble Learning. Seismological Research Letters (2023) 94 (3): 15791602.

[2] Hu Jinjun, Wenbin Zhang, Lei Hu, Longbing Ding, Jingyang Tan. Regional offshore ground motion prediction model from a referenced empirical approach: A case study in the Japan Trench area, Soil Dynamics and Earthquake Engineering, V. 174,2023,108196.

[3] Hu Jinjun, Longbing Ding, Xutong Zhou, Mingji Liu, Jingyang Tan. Offshore near-fault pulse-like ground motions: An insight into the DONET1 seafloor ground motions from the 2016 Mw6.0 Off-Mie earthquake in Japan, Soil Dynamics and Earthquake Engineering, Volume 176,2024, 108326.

[4] Jin Chaoyue, Hu Jinjun. A new ground-motion simulation procedure based on feature extraction matching multiple intensity measures. Soil Dynamics and Earthquake Engineering, Volume 168,2023, 107856.

[5] Hu Jinjun, Hu Lei, Jin Chaoyue, etal. Offshore Ground Motion Models for Arias Intensity and Cumulative Absolute Velocity in the Japan Trench Area, Journal of Earthquake Engineering, 2023. 27:14, 4005-4023.

[6] Hu Jinjun, Liu Bali. Estimation of the Damage-Based Residual Displacement Spectrum for Simple Structures. Journal of Earthquake Engineering, 2023.27:2, 263-283.

[7] Hu Jinjun, Liu Bali, Xie Lili. An unsupervised machine learning based ground motion selection method for computationally efficient estimation of seismic fragility. Earthquake Engineering and Structural Dynamics, 2022;1-24. doi. /10.1002/eqe.3793

[8] Hu Jinjun, Ding Yitian, Zhang Hui, et al. A Real-Time Seismic Intensity Prediction Framework Based on Interpretable Ensemble Learning. Seismological Research Letters2023doi: https://doi.org/10.1785/0220220167

[9] Hu Jinjun, Jin Chaoyue, Zhang Hui, etal. Support Vector Regression for Developing Ground-Motion Models for Arias Intensity, Cumulative Absolute Velocity, and Significant Duration for the Kanto Region, Japan. Seismological Research Letters, 2022; 93 (3): 1619-1635.

[10] Hu Jinjun, Liu Mingji, Tan Jingyang. Damping Modification Factors for Horizontal and Vertical Acceleration Spectra from Offshore Ground Motions in the Japan Sagami Bay Region. Bulletin of the Seismological Society of America,2022, 112(5), 2621-2641.

[11] Hu Jinjun, Tan Jingyang, John X Zhao. New GMPEs for the Sagami Bay Region in Japan for Moderate Magnitude Events with Emphasis on Differences on Site Amplifications at the Seafloor and Land Seismic Stations of K-NET, Bulletin of the Seismological Society of America, 2020, 110 (5): 2577-2597.

[12] Jin Chaoyue, Hu Jinjun. A new ground-motion simulation procedure based on feature extraction matching multiple intensity measures. Soil Dynamics and Earthquake Engineering, Volume 168,2023, 107856.

[13] Tan Jingyang, Hu Jinjun. Offshore ground motion characteristics on the horizontal PGA, spectral acceleration, frequency content and significant duration from the 2021 Mw 7.1 and 2022 Mw 7.4 offshore earthquakes near the Japan Trench Area. Soil Dynamics and Earthquake Engineering,Volume 164,2023,107646.

[14] Hu Jinjun, Tan Jingyang. GMPEs for elastic input energy spectra of horizontal and vertical offshore ground motions based on the ETMC database in Japan. Soil Dynamics and Earthquake Engineering, 2022,155:107198.

[15] Hu Jinjun, Zhang Hui. Support Vector Machine Method for Developing Ground Motion Models for Earthquakes in Western Part of China, Journal of Earthquake Engineering,2022, 26:11, 5679-5694.

[16] Hu Jinjun, Hu Lei, Zhang Hui. Uncertainty Analysis and Spatial Correlation of Ground Motion in the Kanto Basin, Japan.  Journal of Earthquake Engineering, 2022, 26:13, 7056-7072.

[17] Liu Bali, Hu Jinjun, Xie Lili. Exploratory factor analysis-based method to develop compound intensity measures for predicting potential structural damage of ground motion. Bull Earthquake Engineering, 2022, 20, 7107-7135.

[18] Liu Bali, Hu Jinjun, Xie Lili. Estimation of constant damage residual displacements in terms of maximum inelastic displacements for SDOF structures. Bulletin of Earthquake Engineering, 2022, 20, 1027-1055.

[19] Tan Jingyang, Hu Jinjun. A prediction model for vertical-to-horizontal spectral ratios of ground motions on the seafloor for moderate magnitude events for the Sagami Bay region in Japan, Journal of Seismology, 2021, 25:181-199.

[20] Hu Jinjun, Zhang Hui, Zhu Jingbao. Characteristics of strong ground motion attenuation in the 2019 Mw 5.8 Changning earthquake, Sichuan, China. Journal of Seismology, 2021, 25, 949-965.

[21] Hu Jinjun, Zhang Qi, Jiang Zhi Jun. Characteristics of strong ground motions in the 2014 Ms 6.5 Ludian earthquake, Yunnan, China. Journal of Seismology, 2016, 20(1):361-373.

[22] Hu Jinjun, Zhang Wenbo, Xie Lili. Strong motion characteristics of the Mw 6.6 Lushan earthquake, Sichuan, China - an insight into the spatial difference of a typical thrust fault earthquake. Earthquake Engineering and Engineering Vibration, 2015, 14(2):203-216.

[23] Hu Jinjun, Xie Lili. Effect of seismic super-shear rupture on the directivity of ground motion acceleration. Earthquake Engineering and Engineering Vibration, 2013, 12(4):519-527.

[24] Diao Hongqi, Hu Jinjun, Xie Lili. Effect of seawater on incident plane P and SV waves at ocean bottom and engineering characteristics of offshore ground motion records off the coast of southern California, USA. Earthquake Engineering and Engineering Vibration. 2014.13(2):181-194.

[25] Hu Jinjun, Lai Qinghui, Li Shuang. Procedure for Ranking Ground Motion Records Based on the Destructive Capacity Parameter. KSCE Journal Civil Engineering, 2021, 25, 197-207.

[26] Hu Jinjun, Lai Qinghui, Liu Bali, Xie Lili. Ranking of ground motions destructive capacity for low- and middle-rise RC frame structures based on a comprehensive intensity measure. Advances in Structural Engineering. 2022, 25(8), 1745-1758.

[27] 胡进军, 郑旭, 郝彦春, 谢礼立. 俯冲带地震动特征及其衰减规律探讨. 地球物理学报, 2017, 60(5):1773-1787.

[28] 胡进军, 谢礼立. 汶川地震近场加速度基本参数的方向性特征. 地球物理学报, 2011, 54(10):2581-2589.

[29] 崔鑫,胡进军,谭景阳,等.2021年日本福岛海域Mw7.1级地震S-net海底地震动特征. 地球物理学报,2023,66(1):260-271.

[30] 胡进军, 郑旭, 谢礼立. 基于混合方法的南海海域地震动衰减关系研究. 土木工程学报. 2018,51(7): 36-49.

[31] 谭景阳,胡进军.基于改进差分进化算法的设计反应谱高稳定性标定方法研究.土木工程学报,2022,55(05):16-25.

[32] 张齐,胡进军, 姜治军, 谢礼立. NGA模型概述及其在中国适用性的初步探讨. 土木工程学报, 2012,45(S2):42-46.

[33] 姜治军,胡进军,张齐,谢礼立.考虑土层非线性效应的四川地区场地放大系数模型.岩土工程学报,2016,38(09):1650-1659.

[34] 刘名吉, 胡进军, 石昊, 谭景阳. 海域地震动竖向加速度反应谱阻尼修正系数. 工程力学, 2023, 40(4): 162-171.

[35] 刘名吉,胡进军,石昊,谭景阳.海域地震动水平加速度反应谱阻尼修正系数.哈尔滨工业大学学报,2023,99(9):19-26.

[36] 胡进军,田浩,谭景阳,刘巴黎,靳超越.海域和陆域地震动输入能量与强度指标相关性.哈尔滨工业大学学报,2023,99(9):7-18.

[37] 胡进军,王中伟,张辉,靳超越,胡磊.基于特征提取和谱匹配优化的区域地震动时程构建方法.工程力学,2022(12):202-211.

[38] 胡进军,靳超越,张辉,胡磊,王中伟.匹配多目标参数的地震动合成方法.工程力学,2022,39(03):126-136.

[39] 胡进军, 刘巴黎, 谢礼立. 基于因子分析的地震动特征提取及潜在破坏势评估.工程力学,2022,39(10):140-151.

[40] 胡进军,刘巴黎,谢礼立.类旗帜型滞回模型体系的近断层等损伤位移谱.工程力学,2022,39(06):169-180.

[41] 胡进军, 张辉, 靳超越, 王中伟, 胡磊. 基于PCAPSO智能算法的地震动合成方法以中国西部中强地震为例. 工程力学, 2021, 38(3): 159-168.

[42] 胡进军,李琼林,邬迪,谢礼立.基于PSHA的核电厂近断层抗震设计谱构建方法.工程力学,2019,36(05):192-199.

规范专著专利

[1] 《建筑工程性态抗震设计通则》(CECS 1602004) (2017修订-)编委

[2] 《黑龙江省建筑工程抗震性态设计规范》(DB23/T 1502-2013) 编委

[3] 《装配式建筑抗震性态设计标准》编委

[4] 《医疗建筑抗震韧性设计规范》,编委

[5] 《近断层地震动特征及其工程影响》. 李爽,胡进军 . 哈尔滨工业大学出版社. 2023

[6] 《地震动的谱理论与计算》徐龙军,赵国臣,胡进军 . 科学出版社. 2023

[7] 基于改进的差分进化算法标定设计反应谱的高稳定性方法和设备(ZL202111574324.2)

[8] 基于破坏强度的全球地震动定量排序的输入地震动选取方法(ZL202011564947.7)

[9] 应用机器学习中支持向量机、主成分分析和粒子群算法合成地震动场的方法(ZL202010247048.8)

[10] 区域空间地震动场快速合成软件GMFRS V1.0 (2021SR0479166)

荣誉奖励:

[1] 国家科技进步一等奖,建筑结构基于性态的抗震设计理论、方法及应用,2015

[2] 黑龙江省科技进步一等奖,建筑结构基于性态的抗震设计理论研究及规范编制,2014

[3] 黑龙江省科技进步一等奖,基于性态的抗震设防标准研究,2005

[4] 湖北省科技进步一等奖,复杂环境下城市超长高架桥精细爆破拆除关键技术与应用,2014

[5] 中国工程爆破协会科技进步一等奖,城市高架桥精细爆破拆除的设计理论、关键技术和工程应用,2014

[6] 中国地震局防震减灾优秀成果三等奖,强震动记录的工程特征分析及场地效应识别研究,2016

[7] 黑龙江省高校科技进步一等奖,最不利设计地震动与抗震设计谱的新理论及其工程应用,2010

[8] 中国地震局骨干人才,2020

[9] 黑龙江省头雁团队成员, 2019

[10] 16届中国侨届创新人才奖,2016

[11] 中国地震局优秀士学位论文,2010

[12] 黑龙江省优秀毕业研究生,2009

[13] 黑龙江省恢先地震工程奖, 2008

 

学术兼职:

中国地震学会会员,中国力学学会会员,中国地震学会地震工程专业委员会岩土工程防震减灾专业委员会强震动观测技术与应用专业委员会和人工智能专业委员会委员中国地震局工程力学研究所科学技术委员会委员,《Earthquake Science编委,《Earthquake Engineering and Resilience》青年编委,《地球与行星物理论评》青年编委。

 

研究生培养:

培养防灾减灾工程及防护工程、结构工程和岩土工程方向的博士和硕士研究生20余名。