姓名:周宇
性别:男
职称:讲师
学位:博士
电子邮件: zhouyu@fzu.edu.cn
研究方向:动力电池系统状态估计,工业热过程建模与异常检测,复杂分布参数系统建模
教育工作经历
2024.1 入选福州大学旗山学者(海外项目)
2023.12至今 海洋之神8590cm登陆(讲师)
2020.9~2023.10 香港城市大学 系统工程系 博士
2017.9~2023.6 中南大学 机电工程学院 机械工程 博士(硕博连读)
2013.9~2017.6 湖南师范大学 工程与设计学院 机械设计制造及其自动化 学士
科研简介
1. 香港研究资助局,Dual-scale Spatiotemporal Learning Based Multiscale Detection for BMS under Edge Sensor Network,GRF: General Research Fund,9043524,2023-09 至 今,100万元,在研,参与
2. 香港研究资助局,Parallel Models Based Spatial Abnormal Detection for Distributed Parameter Process,GRF: General Research Fund,9042909,2020-01 至 今,48万元,在研,参与
学术论文
[1] Zhou Y, Wang BC, Li HX*, Yang HD, Liu Z. A surrogate-assisted teaching-learning-based optimization for parameter identification of the battery model, IEEE Transactions on Industrial Informatics. 2020 Nov 18, 17(9):5909-18.
[2] Zhou Y, Li HX, Xie SL. Fast modeling of battery thermal dynamics based on spatio-temporal adaptation, IEEE Transactions on Industrial Informatics. 2021 Apr, 18(1):337-44.
[3] Zhou Y, Deng H, Li HX*, Xie SL. Dual separation-based spatiotemporal modeling methodology for battery thermal process under nonhomogeneous boundary conditions, IEEE Transactions on Transportation Electrification. 2021 Feb, 7(4):2260-8.
[4] Zhou Y, Li HX*, Xie SL. Space-Decomposition-Based Spectral Modeling for Distributed Battery Thermal Dynamics, IEEE Transactions on Transportation Electrification. 2021 Nov, 8(2):1634-41.
[5] Zhou Y, Deng H, Li HX*. Optimal-Sensing-Based Recursive Estimation for Temperature Distribution of Pouch-Type Batteries, IEEE Transactions on Transportation Electrification. 2023 Mar, 9(1):912-19.
[6] Zhou Y, Deng H, Li HX*, Xie SL. Data-driven Real-time Prediction of Pouch Cell Temperature Field Under Minimal Sensing, IEEE Transactions on Transportation Electrification. 2023 Mar, 9(1):1034-41.
[7] Zhou Y, Deng H, Li HX*. Control-Oriented Galerkin-Spectral Model for 3-D Thermal Diffusion of Pouch-Type Batteries, IEEE Transactions on Industrial Informatics. 2023 Oct.
[8] Lei L, Zhou Y*, and Yang G. Multisource information fusion-based environment perception and dynamic model of underwater vehicle in irregular ocean environment, Information Fusion. 2023 Jun, 94:257-71.
更多详见 ResearchGate
学术兼职
IEEE Transactions on Industrial Informatics,IEEE Transactions on Transportation Electrification,Journal of Process Control 等期刊审稿人
所属团队
福州大学5G+工业互联网研究院 (福州大学自主无人系统科研团队)