研究所
电机
学术身份
IEEE member
工作经历
2011.09-2012.08 法国国立高等工程技术大学校(ENSAM)助教
2012.09-2013.01 四方车辆研究所牵引传动控制系统研发
2013.3至今山东大学电气工程学院
个人信息
姓名
宫金林
性别
男
出生日期
1983-06-20
籍贯
山东济宁
职称
讲师
职务
电话
**
gongjinlin@sdu.edu.cn 研究方向
电机优化设计&控制
学术著作
1. Jinlin GONG, Bassel ASLAN, Eric SEMAIL, Frédéric GILLON. High speed functionality optimization of five-phase pm machine using 3rd Harmonic CURRENT. International Journal for Computation and Mathematics in Electrical and Electronic EngineeringVol. 31, No. 3, pages 879-893, ISBN: 0332-1649, May, 2014.
2. Jinlin GONG, Alexandru Claudiu BERBECEA, Frédéric GILLON, Pascal BROCHET. “Multi-objective Optimization of a Linear Induction Motor using 3D FEM”. International Journal for Computation and Mathematics in Electrical and Electronic Engineering. Vol. 31, No. 3, pages 958-971, ISBN: 0332-1649, May, 2012.
3. Jinlin GONG, Ramzi, BEN AYED, Frédéric GILLON, Stéphane BRISSET, Pascal BROCHET, “Three-Level Adapted Output Space Mapping Technique for Bi-objective Optimization”. Przegl?d Elektrotechniczny, Issue 5 of Electrical Review 2012, ISSN: 0033-2097.
4. Ramzi, BEN AYED, Jinlin GONG, Stéphane BRISSET, Frédéric GILLON, Pascal BROCHET. “Proposal of a Three Levels Output Space Mapping Strategy”. IEEE Transaction on Magnetic, Vol. 48 (2), pp. 671-67, Feb. 2012.
5. Jinlin GONG, Nicolas BRACIKOWSKI, Xiuhe WANG. Magnetic modeling of a liner motor using lumped approach. International Conference on Electrical Machines and Systems, ICEMS, 10-2014, Hangzhou, China.
6. Jinlin GONG, Frédéric GILLON, Pascal BROCHET. “Optimal Design of a Linear Induction Motor for Subway System Using Finite Element Method”. International Conference on Electrical Machines and Systems, ICEMS, 8-2011, Beijing, China.
7. Jinlin GONG, Alexandru Claudiu BERBECEA, Frédéric GILLON, Pascal BROCHET. Magnetic and Thermal 3D Finite Element Model of a Linear Induction Motor. Vehicle Power and Propulsion Conference, IEEE VPPC, Sep. 1-3, 2010, Lille, France.
承担科研项目
1.国家自然科学基金青年项目(主持)
基于代理模型的直线感应电机多目标优化设计
2.教育部留学人员科研启动基金(主持)
永磁同步电动机电磁振动噪声及其抑制研究
3.国家自然科学基金面上项目(参与)
新型变极起动永磁同步电动机研究
学术类型
教学科研型。要求研究生具有电机和电力电子相关知识,并具有较好的编程能力和动手能力。