Design and   Control of Electrical Machines Systems

Academicstatus

IEEE member

CSEE   member

Communications   review specialist of The   National Natural Science Foundation of China

Reviewers   of IEEE Transactions on Magnetics, International Journal for Computation and   Mathematics in Electrical and Electronic Engineering, Proceedings of the CSEE, Transactions   of China Electrotechnical Society,   and many other SCI,EI important journals and several international   conferences

Personal message

Name

Jinlin   Gong

Gender

Male

Date   of Birth

June 1983

Hometown

Jining   City, Shandong Province

Professional   Title

lecturer

Position

Telephone

18660157499

Email

gongjinlin@sdu.edu.cn

WorkingExperience

2011.09-2012.08 Assistant Professor of Ecole Nationale   Supérieure d'Arts et Métiers(ENSAM)

2012.09-2013.01Research and Development of Traction Drive   System of Sifang Vehicle Research Institute

2013.3 to   present School of Electrical Engineering   of Shandong University

Research Direction

Optimal   Design and Control of Electrical Machines and Drive Systems

Publications

1.J. Gong   et al, Design Considerations of Five-Phase   Machine with Double p/3p Polarity.   IEEE Transactions on Energy Conversion.   (Accepted for publication)

2.J. Gong, F. Gillon, N. Bracikowski,Comparison of Manifold Mapping and Output Space Mapping on the Optimization   of a 5-phase Linear Induction Motor.International   Journal for Computation and Mathematics in Electrical and Electronic   Engineering,Vol. 37, No. 2, pp. 1-14, Feb. 2018.

3.J. Gong, F. Gillon, J. T. Canh and   Y. Xu, Proposal of a Kriging Output Space Mapping Technique for   Electromagnetic Design Optimization.IEEE Transactions on Magnetics, Vol. 53, No. 6,   June 2017.

4.H.Zahr, J. Gong*,   E. Semail, F. Scuiller. Comparison of Optimized Control Strategies   of a High-speed Traction Machinewith Five Phases and Bi-harmonic Electromotive   Force. Energies, Vol. 9, N°. 12,   pp. 952. December 2016.

5.Jinlin GONG, Bassel ASLAN, Eric SEMAIL, Frédéric GILLON. High speed functionality optimization of   five-phase pm machine using 3^rd Harmonic Current. International Journal for Computation and Mathematics in Electrical   and Electronic Engineering,vol. 31, No. 3, pp.   879-893, ISBN: 0332-1649, May, 2014.

6.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, pp. 958-971, ISBN: 0332-1649,   May, 2012.

7.Jinlin GONG,Ramzi, BEN   AYED, Frédéric GILLON, Stéphane BRISSET, Pascal BROCHET, Three-Level Adapted   Output Space Mapping Technique for Bi-objective Optimization. PrzeglądElektrotechniczny, Issue 5 of   Electrical Review 2012, ISSN: 0033-2097.

8.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.

9.Jinlin   Gong, Xiuhe Wang. Optimal Design of a   Linear Induction Motor Using Multi-Objective Efficient Global   OptimizationTransactions of China   Electrotechnical Society, 2015, Vol. 30, No. 24:32-37. (EI)

10.J. Gong et al,   Fault Tolerant 7-phase Hybrid Excitation Permanent Magnet Machine. IEEE   Conference on Electromagnetic Field Computation, Oct. 2018, China.

11.J. Gong et al, Proposal of a   bi-objective Kriging Adapted Output Space Mapping Technique for   Electromagnetic Design Optimization. IEEE Conference on Electromagnetic Field   Computation, Oct. 2018, China.

12.Jinlin   Gong et al.Optimal Design of a Novel Five-phase SPM Machine with   Electronic Pole-Changing Effects. IEEE International Magnetics Conference,   April, 2018, Singapore.

13.Jinlin Gonget al.   Kriging Manifold Mapping Technique for Electromagnetic Design Optimization.   The 17th Biennial Conference on Electromagnetic Field Computation (CEFC),   Miami, FL-Nov 13-16, 2016, USA.

14.Jinlin Gonget al. Optimal Design of a   Linear Induction Motor for Traction Application. International Conference on   Electrical Engineering and Automatic Control (ICEEAC), 10-2015, Weihai, China.

15.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.

16.Jinlin Gonget al. Fast   Optimization of a Linear Induction Motor by 3-Level Space Mapping Technique.   9th International Symposium on Linear Drives for Industrial Applications (LDIA).   7-2013, Hangzhou, China.

17.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.

18.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.

UndergoingResearchProducts

Hosted two   topics of the National Science Fund for Distinguished   Young Scholars, Ministry   of Education Overseas Students Research Fund, the Shandong Provincial Key   Research and Development Program and the Enterprise Projects

Apply for   six patent for invention

Academic types

Academic   Master, Professional master