师资团队

当前位置: 首页 师资团队 中级 正文
田琦 博士

发布日期:2025-01-02来源:

田琦,1992年3月生,博士,讲师。研究方向为面向领域的大数据分析及应用研究。2015年7月毕业于大连理工大学建设工程学院,获工学学士学位,并获直接攻博资格;2018年-2020年赴美国罗格斯大学工业与系统工程系进行为期2年的博士生联合培养;2022年3月毕业于大连理工大学建设工程学院,获工学博士学位;2022年4月-2024年11月在大连理工大学土木工程流动站开展博士后研究工作,同期聘助理研究员。2024年12月至今在BET体育365投注官网任教。主持国家自然科学基金青年基金项目1项,辽宁省自然科学基金项目1项,国家重点研发计划项目专题1项,国家重点实验室、教育部重点实验室开放基金3项;作为项目骨干,参与国家重点研发计划项目2项,国家自然科学基金项目6项。研究成果发表SCI检索论文20篇,EI检索论文5篇,论文获辽宁省自然科学学术成果奖一等奖1项,ICTIS国际学术会议最佳论文奖1项;参编英文专著1部;申请国家发明专利4项;获中国水运建设行业协会科学技术奖一等奖1项,全国仿真创新应用大赛辽宁省三等奖1项。

Email:cstianqi@imu.edu.cn

通信地址:呼和浩特市赛罕区大学西路235号BET体育365投注官网,邮编010021


主持的项目:

1.《考虑港口混配作业的散货码头带式输送系统韧性优化(52402383)》,国家自然科学基金青年科学基金项目,2025年-2027年,总经费30万元。

2.《大型港口作业设施全过程安全运行数字孪生建模技术(2022YFB2602300)》,国家重点研发计划项目专题,2022年-2025年,项目总经费1500万元,个人承担经费45万元。

3.《大型港口作业设备安全运行智能感知及运维技术(2023-BSBA-045)》,辽宁省自然科学基金联合基金(博士科研启动项目),2023年-2025年,总经费5万元。

4.《船闸导航和靠船建筑物智能监测与耐久性评估(A202305)》,国家水运安全工程技术研究中心开放基金,2023年-2024年,总经费2万元。

5.《港口防护建筑物智能监测与耐久性评估方法(202215)》,海岸灾害及防护教育部重点实验室开放基金,2022年-2024年,总经费4万元。

6.《基于深度学习的港口防护建筑物智能监测与耐久性评估(LY2201)》,海岸和近海工程国家重点实验室开放基金,2022年-2023年,总经费5万元。


参与的项目:

1.《绿色港口建设与生态安全保障技术(2021YFB2600200)》,国家重点研发计划项目,2021年-2024年,总经费2200万元。结题,项目骨干。

2.《大型港口智能化建设关键技术联合研发与示范(2020YFE0201200)》,国家重点研发计划项目,2020年-2023年,总经费1117万元。结题,项目骨干。

3.《面向远洋冷链运输的“码头-库场”融合设计与协同控制(52272318)》,国家自然科学基金面上项目,2023年-2026年,总经费60万元。在研,项目骨干。

4.《动态循环约束下湾区海上运输系统网络重构与自适应优化研究(52172315)》,国家自然科学基金面上项目,2022年-2025年,总经费60万元。在研,项目骨干。

5.《复杂网络重构下港口空间结构与功能动态规划理论研究(51779037)》,国家自然科学基金面上项目,2018年-2021年,总经费60万元。结题,项目骨干。

6.《面向海洋能综合利用的港口多能互补与生产调度协同优化(51709037)》,国家自然科学基金青年科学基金项目,2018年-2020年,总经费30万元。结题,项目骨干。

7.《沿海大型枢纽港陆路集疏运多通道空间尺度随机动态规划研究(51309049)》,国家自然科学基金青年科学基金项目,2013年-2016年,总经费29.8万元。结题,项目骨干。

8.《生态型港口时空演化机理与开发模式研究(51279026)》,国家自然科学基金面上项目,2010年-2016年,总经费60万元,结题,项目骨干。


发表的论文:

[1]Qi Tian, Weihong Guo*. Reconfiguration of manufacturing supply chains considering outsourcing decisions and supply chain risks [J]. Journal of Manufacturing Systems, 2019, 52(SI), 217-226. (SCI: 000489000800003/EI: 20192707143238). [IF: 12.2(11.3), JCR: Q1,中科院1Top,他引: 15]

[2] Weihong Guo*(合作导师),Qi Tian, Zhengqian Zhang, Hui Wang. A graph-based cost model for supply chain reconfiguration [J]. Journal of Manufacturing Systems, 2018, 48(SI), 55-63. (SCI: 000447483800008/EI: 20192707143238)). [IF: 12.2(11.3), JCR: Q1,中科院1Top,他引: 17]

[3] Zicheng Xia,Qi Tian*, Tao Feng, Zijian Guo, Yun Peng, Ying Jiang, Wenyuan Wang. Integration management of vessel transportation in complex waterway network of port clusters: A column generation-based solution approach [J]. Expert Systems with Applications, 2024, 126242. [IF: 7.5(7.6), JCR: Q1,中科院1Top,他引: 0]

[4]Qi Tian, Yun Peng, Xinglu Xu, Wenyuan Wang*. Opportunity-maintenance-based scheduling optimization for ship-loading operation systems in coal export terminals [J]. Journal of Marine Science and Engineering, 2024, 12(8), 1377. (SCI, EI)[IF: 2.7(2.8), JCR: Q1,中科院2区,他引: 0]

[5]Qi Tian, Wenyuan Wang*, Yun Peng, Xinglu Xu. High-level feature fusion deep learning model for fault detection in handling equipment in dry bulk ports [J]. Journal of Marine Science and Engineering, 2024, 12, 1535. (SCI, EI)[IF: 2.7(2.8), JCR: Q1,中科院2区,他引: 0]

[6]Qi Tian, Shenghan Guo, Melder Erika, Linkan Bian, Weihong Guo*. Deep learning-based data fusion method for in-situ porosity detection in laser-based additive manufacturing [J]. Journal of Manufacturing Science and Engineering, 2021, 143(4), 041011. (SCI: 000627884600001/EI: 20212410501164). [IF: 2.4(3), JCR: Q2,中科院3区,他引:37]

[7] Weihong Guo*(合作导师),Qi Tian, Shenghan Guo, Yuebin Guo. A physics-driven deep learning model for process-porosity causal relationship and porosity prediction with interpretability in laser metal deposition [J]. CIRP Annals, 2020, 69(1), 205-208. (SCI: 000560029500019/EI: 20202108705826). [IF: 3.2(4.3), JCR: Q2,中科院3区,他引: 35]

[8] Wenyuan Wang(合作导师), Huakun Liu,Qi Tian, Zicheng Xia, Suri Liu, Yun Peng*. An enhanced variable neighborhood search method for refrigerated container stacking and relocation problem with duplicate priorities[J]. Transportation Research Part E: Logistics and Transportation Review, 2024, 188: 103643. (SCI: 001266550900001, EI: 20242716654017) [IF: 8.3(9.2), JCR: Q1,中科院1Top,他引: 0]

[9] Wenyuan Wang(合作导师), Jiaqi Guo,Qi Tian, Yun Peng, Zhen Cao, Keke Liu, Shitao Peng*. Stockyard allocation in dry bulk ports considering resource consumption reduction of spraying operations [J]. Transportation Research Part E: Logistics and Transportation Review, 2024, 193(103816). (SCI, EI) [IF: 8.3(9.2), JCR: Q1,中科院1Top,他引: 0]

[10] Wenyuan Wang(合作导师), Yun Peng*,Qi Tian, Xiangqun Song. Key influencing factors on improving the waterway through capacity of coastal ports [J]. Ocean Engineering, 2017, 137, 382-393. (SCI: 000401680100032, EI: 20182105231170). [IF: 4.6(4.8), JCR: Q1,中科院1,他引: 23]

[11] Wenyuan Wang(合作导师), Bochi Liu,Qi Tian, Xinglu Xu, Yun Peng, Shitao Peng*. Predicting dust pollution from dry bulk ports in coastal cities: A hybrid approach based on data decomposition and deep learning [J]. Environmental Pollution, 2024. (SCI: 001237129100001, EI: 20241816012068)[IF: 7.6(8.3), JCR: Q1,中科院2区Top,他引: 0]

[12] Wenyuan Wang(合作导师), Jiaqi Guo,Qi Tian, Yun Peng*, Bing Yu, Zhen Cao. Layout optimization for stormwater harvesting facilities in coal ports considering stochasticity of underlying surface types [J]. Journal of Construction Engineering and Management, 2024. (SCI: 001293406500004, EI: 20243116794829)[IF: 4.1(4.8), JCR: Q1,中科院2区,他引: 0]

[13] Wenyuan Wang(合作导师), Ying Jiang, Yun Peng*, Yong Zhou,Qi Tian. A simheuristic method for the reversible lanes allocation and scheduling problem at smart container terminal gate [J]. Journal of Advanced Transportation, 2018, 1768536. (SCI: 000426215000001). [IF: 2 (2.3), JCR: Q3,中科院4区,他引: 5]

[14] Devaraj Harish,Qi Tian, Weihong Guo, Malhotra Rajiv*. Multiscale modeling of sintering driven conductivity in large nanowire ensembles [J]. ACS Applied Materials & Interfaces, 2021, 13(47), 56645-56654. (SCI: 000751894800084, EI: 20214811242116). [IF: 8.5(8.8), JCR: Q1,中科院2区Top,他引: 3]

[15] Xiangda Li, Yun Peng,Qi Tian, Tao Feng, Wenyuan Wang*, Zhen Cao. A decomposition-based optimization method for integrated vehicle charging and operation scheduling in automated container terminals under fast charging technology [J]. Transportation Research Part E: Logistics and Transportation Review, 2023, 180(103338). (SCI: 001112140900001, EI: 20234615044801) [IF: 8.3(9.2), JCR: Q1,中科院1Top,他引: 0]

[16]Shenghan Guo, Mohit Agarwal, Clayton Cooper,Qi Tian, Robert X. Gao, Weihong Guo*, Yuebin Guo. Machine learning for metal additive manufacturing: towards a physics-informed data-driven paradigm [J]. Journal of Manufacturing Systems, 2022, 62:145-163. (SCI: 000784306700004, EI: 20214911259247) [IF: 12.2(11.3), JCR: Q1,中科院1Top,他引: 69,2023ESI高被引论文]

[17] Zicheng Xia, Wenyuan Wang*, Zijian Guo, Yun Peng,Qi Tian, Xinglu Xu. Navigation mode extraction and trajectory repair of complex waters in multi-harbor port: An optimal semi-supervised clustering method [J]. Ocean Engineering, 2024, 313, 119439. (SCI, EI). [IF: 4.6(4.8), JCR: Q1,中科院1,他引: 0]

[18] Suri Liu, Wenyuan Wang*, Shaopeng Zhong, Yun Peng,Qi Tian, Ruoqi Li, Xubo Sun, Yi Yang. A graph-based approach for integrating massive data in container terminals with application to scheduling problem [J]. International Journal of Production Research, 2024. (SCI: 001153252000001, EI: 20240615487309) [IF:7(8.3), JCR: Q1,中科院2区Top,他引: 0]

[19] Yun Peng, Wenyuan Wang*, Ke Liu, Xiangda Li,Qi Tian. The impact of the allocation of facilities on reducing carbon emissions from a green container terminal perspective [J]. Sustainability, 2018, 10(6), 1813. (SCI: 000436570100125). [IF: 3.3(3.6), JCR: Q2,中科院3区,他引: 17]

[20] Jianping Shang, Wenyuan Wang*, Yun Peng,Qi Tian, Ying Tang, Zijian Guo. Simulation research on the influence of special ships on waterway through capacity for a complex waterway system: a case study for the port of meizhou bay[J]. Simulation-Transactions of the Society for Modeling and Simulation International, 2019, 96(4), 387-402. (SCI: 000491922900001/EI: 20194507622585) [IF: 1.3(1.3), JCR: Q3,中科院4区,他引次数: 6]

[21] Xiaotong Gui, Xinru Liu,Qi Tian, Weihong Guo*, Multimodal data fusion in 3-D printing quality prediction [J]. IEEE Sensors Letters, 2018, 3(1), 1-4. (EI: 20184706107609).

[22] Bo Wang,Qi Tian*, Wenyuan Wang. Risk analysis of ship collision in complex waterway system based on AIS data[C]//2022 3rd International Conference on Electronics, Communications and Information Technology (CECIT). IEEE, 2022: 176-180. (EI: 20231814034936)

[23] Xu Wang,Qi Tian*, Wenyuan Wang. Simulation study of dust spatial and temporal distribution in dry bulk cargo port yard based on production operation characteristics [C]//23rd COTA International Conference of Transportation Professionals (CICTP). 2023. 42-52. (EI: 20234214911667)

[24] Zijian Guo(合作导师),Qi Tian, Wenyuan Wang*, Ying Jiang. A variable lead-lag time window-based availability optimization for handling equipment in dry bulk port considering minimal repair [C]. 6th International Conference on Transportation Information and Safety: New Infrastructure Construction for Better Transportation. ICTIS 2021, 1503-1508, 2021 (EI: 20222912362693)

[25] Zhengqian Jiang, Hui Wang*,Qi Tian, Weihong Guo. Co-design of supply chain network and subassembly planning considering the reconfiguration of supply chain structure for factory-in-a-box manufacturing [C]. Proceedings of the ASME 13th International Manufacturing Science and Engineering Conference, 2018, 3: UNSP V003T02A015. (EI: 20184205966045)

[26]王文渊*(合作导师),李实博,田琦,郑天奇。基于系统仿真的港池宽度对港口服务水平的影响[J].水运工程, 2018, (1):160-165.

[27] Ragini Waman Joshi,Qi Tian, Animek Shaurya, Pankhuri Arora, Weihong Guo*. Simulation and analysis of preventive maintenance scheduling techniques for fruit-roll packaging line [J]. Procedia Manufacturing, 2019, 39:1762-1772.


参编的专著:

[1] Wenyuan Wang(合作导师),Qi Tian(2021) Simulation framework for ships’ navigation operation system. In Wenyuan Wang and Yun Peng (eds.), Port planning and management simulation, Chapter 3, Elsevier

[2]Qi Tian, Wenyuan Wang (2021) Simulation for water area planning. In Wenyuan Wang and Yun Peng (eds.), Port planning and management simulation, Chapter 4, Elsevier

[3]Qi Tian, Yun Peng, Zicheng Xia (2021) Simulation for water area operation. In Wenyuan Wang and Yun Peng (eds.), Port planning and management simulation, Chapter 5, Elsevier

[4]Qi Tian, Zicheng Xia (2021) Simulation for influences of safe navigation requirements. In Wenyuan Wang and Yun Peng (eds.), Port planning and management simulation, Chapter 6, Elsevier


申请的专利:

[1]田琦,郭子坚,王文渊,基于机会维护的干散货港口装卸作业系统运维优化方法,专利号:ZL 2022 1 1323309.5,授权公告日:2024年8月20日

[2]王文渊,田琦,郭子坚,基于深度学习的集装箱港口装卸设备故障数据补全方法,专利号:ZL 2022 1 1323312.7,授权公告日:2024年8月27日

[3]郭烈,周筱玥,田琦,一种基于模糊综合评价的港口设施运行安全风险评价方法,申请号:202311531212.8,申请日:2023年11月16日

[4]周筱玥,郭烈,田琦,陆尧,马海深,一种港口风险设施智能运行安全管控系统的综合评价方法,申请号:202410664824 .2,申请日:2024年5月27日


获得的奖励:

[1]中国水运建设行业协会科学技术奖一等奖,港口空间规划与海洋国土资源协同利用关键技术研究与应用,2023,总排序11;

[2]全国仿真创新应用大赛,辽宁省三等奖,2022,总排序1;

[3] “A Variable Lead-Lag Time Window-Based Availability Optimization for Handling Equipment in Dry Bulk Port Considering Minimal Repair”,ICTIS 2021国际会议,大会最佳论文奖,2021,总排序2;

[4] “Key influencing factors on improving the waterway through capacity of coastal ports”,辽宁省自然科学学术成果奖评审委员会,学术论文类,辽宁省一等奖,2018,排序3;

[5]获国家留学基金委出国留学奖学金,2018.3-2020.3;

[6]获大连理工大学博士奖学金,2015.9-2021.12;

[7]获大连理工大学三好学生,2014;

[8]获大连理工大学学习一等奖学金,2014;

[9]获大连理工大学学习一等奖学金,2013;

[10]获大连理工大学学习二等奖学金,2012

上一篇:​武月佳(博士)

下一篇:杨润泽 博士

友情链接:

地址:内蒙古呼和浩特市大学西路235号BET体育365投注官网

版权所有 © BET体育365投注官网

官方微信

Baidu
sogou