个人简介
教育背景
2006.09-2013.06: 同济大学, 工学博士, 控制科学与工程,海洋技术方向
2012, 访问加拿大维多利亚大学
2011, 访问美国蒙特雷湾海洋研究所
2007/2008, 联合培养, 德国爱尔兰根大学、西门子全球研发中心
2001.09-2006.07: 同济大学, 工学学士, 上海市优秀毕业生
工作经历
2013.07-现在: 同济大学海洋学院, 海洋技术, 负责海洋观测与智能系统实验室
科研项目
国家海底科学观测网. 国家发改委, 国家重大科技基础设施, 主干技术负责人、技术研发负责人, 2017.12-
海底观测网直流供电系统稳定机理与运行监测(22ZR1464500). 上海市科技创新行动计划, 负责人, 2022.04-2025.03
海底观测网运行健康与安全监测技术研究. 同济大学学科交叉联合攻关示范项目(ZD-22-202103), 负责人, 2021.09-2023.08
面向海洋鱼类识别的视觉数据智能分析理论与关键技术(61936014). 国家自然科学基金重点项目, 子课题负责人, 2020.01-2024.12
用于海底观测网扩展节点的弱海流俘能技术. 海洋地质国家重点实验室自主课题, 负责人, 2020.01-2021.12
海洋视频大数据智能分析与挖掘技术. 同济大学学科交叉重点项目, 共同负责人, 2017.07-2019.06
大规模缆系海底科学观测网电力系统研究(16DZ1205000). 上海市科技创新行动计划, 负责人, 2016.07-2019.06
缆系海底观测网远程电能监控系统研究. 同济大学青年优秀人才培养行动计划, 负责人, 2015.01-2017.12
缆系海底观测网电力系统稳定性研究. 海洋地质国家重点实验室自主课题, 负责人, 2015.01-2015.12
海底长期观测试验网(2012AA09A400), 东海浅海海底观测网试验系统集成(2012AA09A407). 国家高技术研究发展计划重大项目课题, 主干节点总体, 2012.01-2017.12
海底长期观测试验网(2012AA09A400), 基于观测网的深海化学环境长期实时监测系统研发和集成(2012AA09A405). 国家高技术研究发展计划重大项目课题, 接驳技术总体, 2012.01-2017.12
东海海底观测关键技术研究(10DZ1210501). 上海市科委重大项目, 主干节点总体, 2010.01-2015.12
海底长期观测网试验节点关键技术(2007AA091201). 国家高技术研究发展计划重点项目, 研究骨干, 2007.01-2011.12
基于光纤通信的水下数据传输系统. 工信部重大项目任务, 技术总工, 2018.01-2021.06
智能立体海底科学观测网产业化. 国家海洋经济创新示范专项, 技术总工, 2017.06-2020.12
近期论文
查看导师最新文章
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Feng Lyu*, Shaoduo Zheng. Connecting Power Devices in Series for Subsea DC grids. To be submitted
Feng Lyu*, Chao Chen, Zhengwei Wu. A deep-sea in-situ chemical laboratory for long-term cabled seafloor observatories. To be submitted
Chao Chen, Feng Lyu*, Bangchun Wu, Zhengwei Wu. To be submitted
Feng Lyu*, Tianhao Cai, Fushi Huang. A Universal Wireless Charging Platform with Novel Bulged-Structure Transmitter design for Multiple Heterogeneous AUVs. Submitted
蔡天昊, 吕枫. 水下机器人海底无线电能传输技术与应用进展. 已投稿
Feng Lyu*, Xin Xu. An adaptive gradient descent attitude estimation algorithm based on a fuzzy system for UUVs. Ocean Engineering, 2022, 266(4), 113025. doi.org/10.1016/j.oceaneng.2022.113025
Zuo Li, Feng Lyu*, Xin Xu. Flexible underwater drone: Snakelike robot for subsea infrastructure maintenance. Sea Technology, 2022, 63(12): 18-20.
Qian Xia, Jiguang Yue, Chenhao Wu, Feng Lyu*. Method of Identifying Buck Converter Load Without Load Current Measurements. Journal of Electrical Engineering & Technology, 2023, 18:1185–1194. doi.org/10.1007/s42835-022-01210-3
吕枫*, 翦知湣. 海底观测网技术研究与应用进展. 前瞻科技, 2022, 1(2): 79-91.
Feng Lyu*, Xin Xu, Xin Zha. A Snake Eel Inspired Multi-joint Resident Underwater Inspection Robot for Undersea Infrastructure Intelligent Maintenance. IEEE/MTS Oceans, 2022.DOI: 10.1109/OCEANSChennai45887.2022.9775350
Chao Chen, Feng Lyu*. Unmanned-System-Based Solution for Coastal Submerged Outfall Detection. IEEE ICHCE & SWIDR, 2021. DOI: 10.1109/ICHCESWIDR54323.2021.9656282
Feng Lyu*, Tianhao Cai, Longxiang Huang. Harvesting Weak Ocean Current Energy for Resident Unmanned Underwater Vehicles. IEEE/MTS Oceans, 2021
耿坤, 吕枫*. 基于PCA/LSTM的海底观测网电力系统供电海缆故障定位. 海洋技术学报, 2020, 39(3): 22-29
Shaoduo Zheng, Feng Lyu*. Compact Medium Voltage DC/DC Converter Using Series-Connected Power Devices. Electronics 2020, 9(6), 1024-1033; doi.org/10.3390/electronics9061024
Longxiang Huang, Feng Lyu*. Compact Low-Velocity Ocean Current Energy Harvester Using Magnetic Couplings for Long-Term Scientific Seafloor Observation. Journal of Marine Science and Engineering, 2020, 8(6), 410-427; doi.org/10.3390/jmse8060410
Shijun Lin, Feng Lyu*, Huixin Nie. An Automatic Instrument Integration Scheme for Interoperable Ocean Observatories. Sensors, 2020, 20(7), 1990-2003; doi.org/10.3390/s20071990
Fan Yang, Feng Lyu*. A novel fault location approach for scientific cabled seafloor observatories. Journal of Marine Science and Engineering, 2020, 8(3), 190-207; doi.org/10.3390/jmse8030190
Chenhao Wu, Jiguang Yue, Li Wang, Feng Lyu. Fault Diagnosis of Recessive Weakness in Superbuck Converter Based on KPCA-IPNN*. European Control Conference, 2020
Yamei Jiang, Feng Lyu*. Large-signal stability analysis of the undersea direct current power system for scientific cabled seafloor observatories. Applied Sciences, 2019, 9, 3149-3168; doi.org/10.3390/app9153149
Jiayu Zhu, Feng Lyu*. A current-to-voltage DC-DC converter for powering backbone devices of scientific cabled seafloor observatories. Energies, 2019, 12, 2261-2273; doi.org/10.3390/en12122261
Chenhao Wu, Jiguang Yue, Li Wang*, and Feng Lyu. Detection and classification of recessive weakness in superbuck converter based on WPD-PCA and probabilistic neural network. Electronics, 2019, 8, 290
Jincheng Liu, Jiguang Yue, Li Wang*, Chenhao Wu, and Feng Lyu. A low-cost, high-precision method for ripple voltage measurement using a DAC and comparators. Electronics, 2019, 8, 586
Li Wang, Feng Lyu*, Yongqing Su, Jiguang Yue. Kernel entropy-based classification approach for superbuck converter circuit fault diagnosis. IEEE Access, 2018, 6(1): 45504-45514; doi:10.1109/ACCESS.2018.2864138
Jiayu Zhu, Feng Lyu*. Powering backbone devices of large-scale cabled seafloor observatories by current-to-voltage DC-DC converters. MTS/IEEE Oceans, 2018. DOI: 10.1109/OCEANSKOBE.2018.8559309
Shijun Lin, Feng Lyu*. A capable smart sensor interface module for interoperable ocean observatories. IOP Conf. Series: Earth and Environmental Science, 171, 2018, doi:10.1088/1755-1315/171/1/012005
Shaoduo Zheng, Feng Lyu*. Switching high voltage DC power in branching units of large-scale cabled seafloor observatories. IOP Conf. Series: Earth and Environmental Science, 171, 2018, doi:10.1088/1755-1315/171/1/012006
Li Wang, Jiguang Yue, Feng Lyu. System identification based parameter monitoring approach for DC-DC superbuck converter. International Conference on Control, Automation, Robotics and Vision, 2018
Li Wang, Jiguang Yue, Yongqing Su, Feng Lu and Qiang Sun. A Novel Remaining Useful Life Prediction Approach for Superbuck Converter Circuits Based on Modified Grey Wolf Optimizer-Support Vector Regression. Energies, 2017. Energies 2017, 10(4), 459-480; doi.org/10.3390/en10040459
Feng Lu, Huaiyang Zhou*, Xiaotong Peng, Jiguang Yue, Pinxian Wang. Technical preparation and prototype development for long-term cabled seafloor observatories in Chinese marginal seas. // Favali P, Beranzoli L, Santis A. Berlin. Seafloor observatories: A new vision of the Earth from the Abyss. Springer, 2015: 503-530
Feng Lu*, Huaiyang Zhou, Jiguang Yue, Xiaotong Peng, Bin He, Zhengwei Wu. Design of an undersea power system for the East China Sea experimental cabled seafloor observatory. MTS/IEEE Oceans, 2013
Feng Lu*, Huaiyang Zhou, Xiaotong Peng, Jiguang Yue, Bin He, et al. Development of an undersea science node for cabled ocean observatories. MTS/IEEE Oceans, 2011
Feng Lu*, Jiguang Yue, Xiaotong Peng, Huaiyang Zhou. Critical infrastructure of long-term real-time cabled ocean observatory networks. CET, 2011
Bangchun Wu, Yunshi Xiao, Jiguang Yue, Feng Lu, Xiaotong Peng, Huaiyang Zhou. Design of a high precision conductivity measurement system. International Conference of Electronics, Information, and Control Engineering, 2011
Bangchun Wu, Xiaotong Peng, Huaiyang Zhou, Yunshi Xiao, Feng Lu, Zhengwei Wu. Development of a deep-sea chemical analyzer for in-situ anion measurement. MTS/IEEE Oceans, 2010
李杰, 米智楠, 吕枫*, 王凯. 海流发电装置的叶片翼型改进研究. 流体传动与控制, 2017, 3(82): 20-23
吴正伟, 周怀阳, 吕枫. 海洋观测仪器防生物附着技术. 海洋工程, 2017, 25(5): 110-117
吕枫*, 周怀阳. 缆系海底科学观测网研究进展. 工程研究-跨学科视野中的工程, 2016, 8 (2): 139-154
吕枫*, 周怀阳, 岳继光, 何斌. 缆系海底观测网电力系统结构与拓扑可靠性. 同济大学学报, 2014, 42 (10): 1604-1610
吕枫*, 周怀阳, 岳继光, 何斌. 缆系海底观测网远程电能监控系统. 同济大学学报, 2014, 42 (11): 1725-1732
吕枫*, 周怀阳, 岳继光, 彭晓彤, 何斌. 东海缆系海底观测试验网电力系统设计与分析. 仪器仪表学报, 2014, 35 (4): 730-737
吕枫*, 彭晓彤, 周怀阳, 岳继光, 何斌. 缆系海底观测网原型系统设计. 仪器仪表学报, 2012, 33 (5): 1134-1140
吴邦春, 岳继光, 萧蕴诗, 何斌, 吴正伟, 吕枫. 海底长期原位阴离子分析体统的深海试验. 高技术通讯, 2013, 23(8): 856-862
吕枫*, 岳继光, 彭晓彤, 周怀阳. 用于海底观测网水下接驳盒的电能监控系统. 计算机测量与控制, 2011, 19 (5): 1076-1081
田轩, 岳继光, 彭晓彤, 吕枫. 深海装备接地故障检测系统设计. 机电一体化, 2012, 18(4): 76-80
彭晓彤*, 周怀阳, 吴邦春, 吕枫, 等. 美国MARS海底观测网中国节点试验. 地球科学进展, 2011, 26(9): 50-55
共同主编. 海底科学观测的国际进展, 同济大学出版社, ISBN: 978-7-5608-6674-1, 2017.04
编委. 英汉船舶及海洋工程技术大辞典, 上海交通大学出版社, ISBN: 978-7-313-15113-1, 2016
编委. 深远海工程装备与高技术丛书, 上海科学技术出版社, ISBN: 978-7-547-85044-2, 2020
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