大赢家体育

副教授
当前位置: 首页 > 师资力量 > 副教授 > 正文

大赢家体育:秦浩

浏览: 编辑: 来源: 时间:2015年08月21日 11:10



秦浩(Dr. Hao Qin,男,博士,副教授,1990年生。长期致力于海洋科学、海洋工程与技术领域的教学和科研工作,重点开展人工智能海洋工程、波浪与结构物相互作用、海洋可再生能源、海洋防灾减灾等方面的研究。主持、参与国家重点研发计划项目、国家自然科学基金项目等科研项目10余项,发表学术论文30余篇,取得发明专利10项,获得行业协会科技奖励5项。担任ISOPE国际会议分会场主席,担任Ocean Engineering、Applied Ocean Research、Journal of Fluids and Structures、Energy、Ships and Offshore Structures、Journal of Marine Science and Engineering等多个期刊审稿人。


工作经历

? 20218至今:大赢家体育,副教授;

? 20199至今:智慧海洋信息技术湖北省工程研究中心,副主任;

? 20195—202210月:大赢家体育,海洋工程与技术系副系主任;

? 20187—20216月:大赢家体育,特任副教授。


教育经历

? 20139—20186月:上海交通大学,船舶与海洋工程专业(直接攻读博士),获博士学位;

? 20099—20136月:上海交通大学,船舶与海洋工程专业,获学士学位。


科研项目

[1] 国家重点研发计划子课题,海上遇险目标立体搜寻与高清晰观测关键技术,2022-2025,主持;

[2] 国家重点研发计划课题,救捞作业关键数据协同监测与信息保障技术研究,2018-2021,主研

[3] 国家自然科学基金-青年基金项目,畸形波作用下考虑流固耦合效应的海洋平台结构动力响应研究,2022-2024,主持;

[4] 国家自然科学基金-重点项目,畸形波的动力学机理及其对深海平台强非线性作用研究,2013-2017,主研

[5] 深圳市自然科学基金-重点项目,气候变化背景下的全球与粤港澳大湾区海平面变化机理与上升趋势研究,2020-2023,主持;

[6] 广东省海上风电联合基金-面上项目,基于一体化耦合算法和快速预测模型的海上浮式风电平台系泊系统设计优化研究,2023-2026,主持;

[7] 广东省区域联合基金-青年基金项目,畸形波作用下考虑水弹性效应的海洋平台结构动力响应研究,2020-2022,主持;

[8] 南方海洋科学与工程广东省实验室(广州)人才团队引进重大专项,河口区海洋环境综合在线监测关键技术研究,2019-2022,主研

[9] 中船集团第七一九研究所项目,XXXX协同控制方法研究,2023-2023,主持;

[10] 大赢家体育杰出人才培育基金,畸形波及其与海洋结构物相互作用数值模拟研究,2019-2021,主持

[11] 福建省船舶与海洋工程重点实验室开放基金,畸形波作用下集装箱船运动响应及甲板上浪数值模拟研究,2022-2024,主持;

[12] 深圳市海洋监测预报中心项目,深圳海域海洋动力环境预报系统开发建设项目运维,2021-2021,主持;

[13] 中海油信息科技有限公司项目,新建港口船舶污染海洋环境风险评测及应急预案技术服务,2021-2022,主持。

[14] 广东省渔业捕捞和养殖业防灾减灾体系建设与维护专项,汕尾市渔业捕捞与养殖业防灾减灾体系建设与维护——重要渔港、重点增养殖区承灾体脆弱性调查与评估项目,2019-2019,主持;

[15] 广东省渔业捕捞和养殖业防灾减灾体系建设与维护专项,惠州市海洋与渔业局惠州市渔业捕捞与养殖业防灾减灾体系建设与维护项目,2019-2019,主持

[16] 广东省渔业捕捞和养殖业防灾减灾体系建设与维护专项,江门市重要渔港、重点增养殖区承灾体调查及风险区划项目,2019-2019,主持。


学术论文

? 2024年:

[1] Liang, H., Qin, H.*, Su, H., Wen, Z., Mu, L., 2024. Environmental-sensing and adaptive optimization of wave energy converter based on deep reinforcement learning and computational fluid dynamics. Energy, 297, 131254. (师生合作,一区Top

[2] Wang, J., Qin, H.*, Zhang, W., Zhang, H., Mu, L., 2024. Experimental and numerical investigation on the interaction between rogue waves and a KVLCC2 in head sea. Ocean Engineering, 297, 117167. (师生合作,一区Top

[3] Wei, W., Huang, S., Qin, H.*, Yu, L., Mu, L., 2024. Storm surge risk assessment and sensitivity analysis based on multiple criteria decision-making methods: A case study of Huizhou city. Frontiers in Marine Science, 11, 1364929. (师生合作,一区Top

[4] Yu, L., Qin, H.*, Huang, S., Wei, W., Jiang, H., Mu, L., 2024. Quantitative study of storm surge risk assessment in undeveloped coastal area of China based on deep learning and geographic information system techniques: A case study of Double-Moon Bay Zone. Natural Hazards and Earth System Sciences, accepted. (师生合作)

? 2023年:

[1] Liang, H., Qin, H.*, Mu, L., Su, H., 2023. Real-time model for wave attenuation using active plate breakwater based on deep reinforcement learning. Ocean Engineering, 277, 114320. (师生合作,一区Top

[2] Wang, J., Qin, H.*, Hu, Z., Mu, L., 2023. Three-dimensional study on the interaction between a container ship and freak waves in beam sea. International Journal of Naval Architecture and Ocean Engineering, 15, 100509. (师生合作)

[3] Liang, H., Qin, H.*, Mu, L., 2023. Numerical study on an actively controlled flat plate breakwater. International Journal of Offshore and Polar Engineering, 33(01), 62-70. (师生合作)

[4] Zhang, H., Tang, W.*, Wang, B., Qin, H., 2023. The occurrence probability prediction model of 2D and 3D freak waves generated by wave superposition. Ocean Engineering, 270, 113640.

[5] Zhu, K., Jiang, R., Sun, Z., Qin, H., Cheng, Z., Wang, Y.*, Zhao, E., 2023. Numerical study on the effects of the multiple porous medium breakwaters on the propagation of the solitary wave. Journal of Marine Science and Engineering, 11(3), 565.

[6] Wu, Y., Zhu, K.*, Qin, H., Wang, Y., Sun, Z., Jiang, R., Wang, W., Yi, J., Wang, H., Zhao, E., 2023. Numerical investigation on the influence of breakwater and the sediment transport in Shantou offshore area. Applied Sciences, 13(5), 3011.

[7] Zhao, E., Mu, L., Qin, H., 2023. Advances in Applied Marine Sciences and Engineering. ISBN: 9783036582085.

? 2022年:

[1] Qin, H., Wang, J., Zhao, E.*, Mu, L., 2022. Numerical study of rogue wave forces on flat decks based on the Peregrine breather solution under finite water depth. Journal of Fluids and Structures, 114, 103744.

[2] Wang, S., Mu, L., Qin, H.*, Wang, L., Yao, Z., Zhao, E., 2022. The utilization of physically based models and GIS techniques for comprehensive risk assessment of storm surge: A case study of Huizhou. Frontiers in Marine Science, 9, 939380. (师生合作,一区Top

[3] Liang, H., Zhao, E., Qin, H.*, Mu, L., Su, H., 2022. A model coupling CFD and DRL: investigation on wave dissipation by actively controlled flat plate. IEEE Access, 10, 98290-98308. (师生合作)

[4] Zhang, C., Zhang, W., Qin, H.*, Han, Y., Zhao, E., Mu, L., Zhang, H., 2022. Numerical study on the green-water loads and structural responses of ship bow structures caused by freak waves. Applied Sciences, 13(11), 6791. (师生合作)

[5] Zhang, H., Tang, W.*, Yuan, Y., Xue, H., Qin, H., 2022. The three-dimensional green-water event study on a fixed simplified wall-sided ship under freak waves. Ocean Engineering, 251, 111096.

[6] Zhang, Z., Pan, C., Zeng, J., Chen, F., Qin, H., He, K., Zhu, K., Zhao, E.*, 2022. Hydrodynamics of tidal bore overflow on the spur dike and its influence on the local scour. Ocean Engineering, 266, 113140.

[7] Zhang, C., You, D., Qin, H.*, 2022. Numerical study on the bridge deck responses under solitary waves. ISOPE-2022, Shanghai, China. (师生合作)

[8] Wang, J., Qin, H.*, Mu, L., Li, Y., 2022. Numerical study on the ship motion responses under freak waves. ISOPE-2022, Shanghai, China. (师生合作)

[9] Liang, H., Qin, H.*, Mu, L., 2022. Numerical study on an actively controlled flat plate breakwater. ISOPE-2022, Shanghai, China. (师生合作)

? 2021年以前:

[1] Zhang, H., Yuan, Y.*, Tang, W., Xue, H., Liu, J., Qin, H., 2021. Numerical analysis on three-dimensional green water events induced by freak waves. Ships and Offshore Structures, 16, 33-43.

[2] Hu, Z., Zhang, X.*, Li, Y., Li, X., Qin, H., 2021. Numerical simulations of super rogue waves in a numerical wave tank. Ocean Engineering, 229, 108929.

[3] Qin, H., Mu, L.*, Tang, W., Hu, Z., 2020. A concurrent multi-process refinement method applied in two-dimensional strong-coupled fluid-structure interaction problems. Ocean Engineering, 197, 106912.

[4] Hu, Z., Zhang, X.*, Li, Y., Li, X., Qin, H., 2020. Numerical study on hydroelastic interaction between solitary wave and submerged box. Ocean Engineering, 205, 107299.

[5] Yuan, X., Yao, Z., Qin, H.*, Mu, L., Jiang, H., 2020. Numerical study on the structural response of coastal bridge structures induced by tsunami wave forces based on CFD and FEM methods. ISOPE-2020, Shanghai, China. (师生合作)

[6] Qin, H., Mu, L.*, Tang, W., Hu, Z., 2019. Numerical study on structural response of anti-sloshing baffles of different configurations in a sloshing tank considering hydroelasticity. Ocean Engineering, 188, 106290.

[7] Qin, H., Mu, L.*, Tang, W., Hu, Z., 2019. Numerical study of the interaction between Peregrine breather based freak waves and twin-plate breakwater. Journal of Fluids and Structures, 87, 206-227.

[8] Zhao, E., Mu, L.*, Qin, H., Jiang, H., 2019. Study on dynamic slope angle of sandy seabed around the submarine piggyback pipeline in steady flow. Journal of Marine Engineering and Technology, 1-13.

[9] Qin, H.*, Mu, L., Zhao, E., 2019. Numerical study on the hydroelastic effects of the fluid-structure interaction in a sloshing tank with baffles. ISOPE-2019, Honolulu, Hawaii, USA.

[10] Qin, H., 2019. Rogue wave and its influence on marine, offshore and coastal structures. Sino-German Symposium, Bremen, Germany.

[11] Qin, H., Tang, W.*, Xue, H., Hu, Z., Guo, J., 2017. Numerical study of wave impact on the deck-house caused by freak waves. Ocean Engineering, 133, 151-169.

[12] Qin, H., Tang, W.*, Hu, Z., Guo, J., 2017. Structural response of deck structures on the green water event caused by freak waves. Journal of Fluids and Structures, 68, 322-338.

[13] Qin, H., Tang, W.*, Xue, H., Hu, Z., 2017. Dynamic response of a horizontal plate dropping onto nonlinear freak waves using a fluid–structure interaction method. Journal of Fluids and Structures, 74, 291-305.

[14] Qin, H., Tang, W.*, Xue, H., Hu, Z., 2017. Numerical study of nonlinear freak wave impact underneath a fixed horizontal deck in 2-d space. Applied Ocean Research, 64, 155-168.

[15] Qin, H., Xue, H.*, Tang, W., Liu, J., Hu, Z., 2017. Numerical simulation of the dynamic response of a beam structure impacted by nonlinear freak wave. ISOPE-2017, San Francisco, California, USA.

[16] 秦浩, 唐文勇*, 薛鸿祥. 非线性畸形波所致的平台底部砰击载荷及结构响应数值模拟. 上海交通大学学报, 2018, 52(9): 1009-1016.

[17] 秦浩, 薛鸿祥*, 唐文勇, 扈喆. 考虑水弹性效应的非线性畸形波甲板上浪砰击研究. 第十八届中国海洋(岸)工程学术讨论会, 中国舟山.


发明专利

[1] 发明专利,ZL202311055830.X,参数确定模型训练、参数确定方法、装置、设备及介质

[2] 发明专利,ZL202311417577.8,波浪消减方法、模型训练方法、装置、电子设备及介质

[3] 发明专利,ZL202310851198.3,路径规划方法、装置、设备及计算机可读存储介质;

[4] 发明专利,ZL202210520914.5,海况预测方法、装置、设备及存储介质;

[5] 发明专利,ZL202210861071.5,水上航行器航迹规划方法、装置、计算设备及存储介质;

[6] 发明专利,ZL202310815497.1,漂浮物的漂移预测方法、装置、设备和介质

[7] 发明专利,ZL202210495718.7,漂移速度预测方法、装置、计算设备及存储介质;

[8] 发明专利,ZL202210495739.9,风致漂移预测方法、装置、设备及存储介质;

[9] 发明专利,ZL202010810772.7,一种海上溢油的三维模拟方法及装置;

[10] 发明专利,ZL202010709689.0,一种海上搜救目标漂移预测方法及装置。


科研奖励

[1] 2023年,海洋工程科学技术奖特等奖,排名9/20

[2] 2023年,中国产学研合作创新成果奖一等奖,排名6/10

[3] 2023年,灾害防御科学技术奖一等奖,排名9/15

[4] 2019年,海洋科学技术奖一等奖,排名3/10

[5] 2019年,中国产学研合作创新成果奖一等奖,排名3/10

[4] 2017年,第十八届中国海洋(岸)工程学术讨论会青年优秀论文奖,排名1/4。


竞赛指导

[1] 2023年,第届中国国际互联网+”大学生创新创业大赛国家级铜奖、省级金奖,指导教师(参赛学生:张彩云、王雅楠、刘绪鸿等)

[2] 2023年,第届中国国际互联网+”大学生创新创业大赛校级银奖,指导教师(参赛学生:马嘉祥、林梓田、王雨涵等)

[3] 2023年,第二届全国智慧海洋大数据应用创新大赛全国20,指导教师(参赛学生:马嘉祥、林梓田、谢雨菲等)

[4] 2022年,第八届中国国际互联网+”大学生创新创业大赛国家级铜奖、省级金奖,指导教师(参赛学生:施皓程、周鑫祎、梁泽辉等)

[5] 2022年,亚太地区大学生数学建模竞赛二等奖,指导教师(参赛学生:周鑫祎、陈浩生、夏凯);

[6] 2022年,第十九届五一数学建模竞赛一等奖,指导教师(参赛学生:周鑫祎、王培军、周均花);

[7] 2022年,数维杯大学生数学建模竞赛本科组三等奖,指导教师(参赛学生:周鑫祎、施皓程、王培军)

[8] 指导研究生获得国家奖学金、学业奖学金、各类竞赛奖若干。


联系方式

通讯地址:湖北省武汉市洪山区鲁磨路388号中国地质大学大赢家体育。

电子邮箱:qinhao@cug.edu.cn.


招生意向

研究方向包括:人工智能海洋工程、波浪与结构物相互作用、海洋可再生能源、海洋防灾减灾等,其中部分方向具有较强的交叉学科特征(如AI+海工,GIS+海洋等

欢迎计算机、海洋、船海、港工、地信、土木、数学以及其他理工科专业本科生报考研究生(请邮件联系);

欢迎大赢家体育本科生联系开展科研、实践、竞赛和毕业论文工作(请邮件联系)。




大赢家体育 - 腾讯百科