CONTENTS
Welcome Message ------01
History of LDIA ------02
Conference Committee ------03
Conference Information ------09
Conference Schedule ------10
Agenda ------11
Invited Talks ------15
Oral Presentations ------26
Poster Presentations ------34
Appendices ------46
Requirement for Oral and Poster Presentation ------46
Conference Site Distribution ------47
Conference Guide ------48
Introduction to SEEE of HUST ------50
Welcome Message
Dear Colleagues and Friends, On behalf of the Organizing Committee, we warmly welcome you to the 13th International Symposium on Linear Drives for Industry Application (LDIA 2021) to be held at the East Lake International Conference Center, Wuhan, China, during July 1-3, 2021. It is our great pleasure to hold this exciting event at Wuhan, the capital of Hubei Province, with a history of over 3,500 years. The goal of LDIA2021 is to bring together researchers from both academia and industry to share research findings and discuss future developments in the field of advanced linear drive technology. This symposium comprises various invited speeches and technical sessions of oral and poster presentations. LDIA 2021 received a total number of 366 papers. After a strict reviewing process by the technical committee and other experts of linear machines and drives, we have finally accepted 227 papers. The acceptance rate is 62.02%. The topics of these papers mainly include the trend and new development of linear drives, electromagnetic linear motors and actuators, non-electromagnetic linear motors and actuators, linear drive control methods, suspension technology, linear drive subsystems, application of linear actuator and suspension technology, electromagnetic field and force field analysis, materials, new technologies and other related topics. As the host and conference organizer, we would like to express our heartfelt thanks to the sponsorship of Huazhong University of Science and Technology (HUST) and IEEE Industrial Application Society (IAS). We thank all the sponsors, exhibitors, session chairs, volunteers, and conference staff for your great dedication to make this event a success. We are very grateful for the hard work of the experts on various committees. Your continuous efforts made it possible for LDIA2021 to proceed smoothly. Taking this opportunity, we would like to express our deepest gratitude to all reviewers who have reviewed all technical papers professionally to ensure the high-quality publication of the conference proceedings. We sincerely hope that all participants will have in-depth discussions with each other and build lasting friendships during this conference, and have a pleasant and fruitful stay in Wuhan. Last but not least, we look forward to seeing you all at the next conference, LDIA 2023, in Germany. Yours sincerely,
General Chair General Co-Chair General Co-Chair
Prof. Wei Xu Prof. Jianguo Zhu Prof. Guangtong Ma (HUST, China) (USYD, Australia) (SWJTU, China)
1
History of LDIA
2
Conference Committee
➢ Conference General Chair Wei Xu Huazhong University of Science and Technology, China
➢ Conference General Co-Chair Jianguo Zhu University of Sydney, Australia Guangtong Ma Southwest Jiaotong University, China
➢ Organizing Committee Zhaolong Sun Naval University of Engineering, China Dayi Li Huazhong University of Science and Technology, China Wubin Kong Huazhong University of Science and Technology, China Fei Xiong Huazhong University of Science and Technology, China
➢ Technical Program Committee Qinfen Lu Zhejiang University, China Gang Lv Beijing Jiaotong University, China Wenshen Song Southwest Jiaotong University, China Xuzhen Huang Nanjing University of Aeronautics and Astronautics, China Zhenbin Zhang Shandong University, China
➢ Editing and Publishing Committee Ruiwu Cao Nanjing University of Aeronautics and Astronautics, China Wei Wang Southeast University, China Rabiul Islam University of Wollongong, Australia Marcello Pucci National Research Council of Italy, Italy Zhiwei Zhang Ohio State University, USA Jingang Lai RWTH Aachen University, Germany
➢ Social Program Committee Jiwen Zhao Hefei University of Technology, China Jianfei Pan Shenzhen University, China Pinjia Zhang Tsinghua University, China Jikai Si Zhengzhou University, China Ke Wang Institute of Electrical Engineering, Chinese Academy of Science, China Lei Huang Southeast University, China Mingyi Wang Harbin Institute of Technology, China Lu Zhang Harbin Institute of Technology, China Dawei Li Huazhong University of Science and Technology, China Xianfei Xie Huazhong University of Science and Technology, China
3
➢ Secretariats Yi Liu Huazhong University of Science and Technology, China Honglin Peng Huazhong University of Science and Technology, China Jian Ge Huazhong University of Science and Technology, China Yifan Lin Huazhong University of Science and Technology, China
➢ Local Organization Team Yi Liu Huazhong University of Science and Technology, China Xi Chen Huazhong University of Science and Technology, China Yahong Chen Wuhan University, China Tao Wu China University of Geosciences, China Lili Bai Huazhong University of Science and Technology, China Zhen Bao Huazhong University of Science and Technology, China Syed Arslan Bukhari Huazhong University of Science and Technology, China Chen Cao Huazhong University of Science and Technology, China Junjie Chen Huazhong University of Science and Technology, China Dinghao Dong Huazhong University of Science and Technology, China Jian Ge Huazhong University of Science and Technology, China Yifan Gong Huazhong University of Science and Technology, China Juncai Jiang Huazhong University of Science and Technology, China Lan Jiang China University of Geosciences (Wuhan), China Xiang Li Huazhong University of Science and Technology, China Kaiju Liao Huazhong University of Science and Technology, China Yifan Lin Huazhong University of Science and Technology, China Can Long Huazhong University of Science and Technology, China Deli Luo Huazhong University of Science and Technology, China Zhixin Mao Huazhong University of Science and Technology, China Ganghui Qu Huazhong University of Science and Technology, China Yongdao Shangguan Huazhong University of Science and Technology, China Jingyue Su Huazhong University of Science and Technology, China Yirong Tang Huazhong University of Science and Technology, China Anyong Wang Huazhong University of Science and Technology, China He Wang China University of Geosciences (Wuhan), China Qizhe Wang Huazhong University of Science and Technology, China Xinyu Xiao Huazhong University of Science and Technology, China Feihong Yue Naval University of Engineering, China Maoxin Zhang Huazhong University of Science and Technology, China Yangsheng Zhang Huazhong University of Science and Technology, China Yaping Zhang Huazhong University of Science and Technology, China Yishu Zhang Huazhong University of Science and Technology, China
4
➢ International Steering Committee Chairperson Hiroyuki Ohsaki University of Tokyo, Japan Members Antonio Carlos Ferreira Universidade Federal do Rio de Janeiro (UFRJ), Brazil Jianxin Shen Zhejiang University, China Liming Shi Chinese Academy of Sciences, China Qinfen Lu Zhejiang University, China Jean-Paul Yonnet Laboratoire de Génie Electrique de Grenoble (LEG), France Wolf-Rüdiger Canders TU Braunschweig, Germany Kay Hameyer RWTH Aachen, Germany Takafumi Koseki University of Tokyo, Japan Tsutomu Mizuno Shinshu University, Japan Mimpei Morishita Kogakuin University, Japan Kenji Suzuki Tokyo City University, Japan Jung-Pyo Hong Hanyang University, Korea Elena Lomonova Eindhoven University of Technology, Netherlands Ion Boldea Polytechnic Inst. Timisoara, Romania Alain Cassat BCD Engineering Sàrl, Switzerland Yves Perriard École Polytechnique fédérale de Lausanne (EPFL), Switzerland Alfred Rufer École Polytechnique fédérale de Lausanne (EPFL), Switzerland Faa-Jeng Lin National Central University, Taiwan, China Mi-Ching Tsai National Cheng Kung University, Taiwan, China Fred Eastham University of Bath, UK Jiabin Wang University of Sheffield, UK Zi-Qiang Zhu University of Sheffield, UK Jacek F. Gieras United Tech. Research Centre, USA David Trumper Massachusetts Institute of Technology, USA
➢ National Steering Committee Chairperson Weiming Ma Naval University of Engineering, China Shijie Cheng Huazhong University of Science and Technology, China Yunyue Ye Zhejiang University, China Members Yanxi Cai Shanghai University, China Ruiwu Cao Nanjing University of Aeronautics and Astronautics, China Hao Chen China University of Mining and Technology, China Weirong Chen Southwest Jiaotong University, China Xi Chen Huazhong University of Science and Technology, China Yamin Chen Aosmith Electrical Products (Suzhou) Co., Ltd., China Jingxiong Dai Hubei Donper Electromechanical Group Co., Ltd., China Renjun Dian Wuhan University of Science and Technology, China
5
Xiaofeng Ding Beihang University, China Guanghui Du Xi'an University of Science and Technology, China Jinhua Du Xi'an Jiaotong University, China Yi Du Jiangsu University, China Yumei Du Institute of Electrical Engineering of the Chinese Academy of Sciences, China Haiyang Fang Huazhong University of Science and Technology, China Zhonglun Feng Zhonglun Precision Co., Ltd., China Fengli Fu Shanghai Electric Machinery Association, China Chun Gan Huazhong University of Science and Technology, China Yue Gao Wolong Co., Ltd., China Qiongxuan Ge Institute of Electrical Engineering of the Chinese Academy of Sciences, China Xinglai Ge Southwest Jiaotong University, China Liang Guo Zhejiang Sci-Tech University, China Mingjie He CRRC Zhuzhou Institute Co., Ltd., China Yunfeng He CRRC Zhuzhou Institute Co., Ltd., China Dong Hu CRRC Zhuzhou Institute Co., Ltd., China Wei Hua Southeast University, China Lei Huang Southeast University, China Shoudao Huang Hunan University, China Xiaoyan Huang Zhejiang University, China Xuzhen Huang Nanjing University of Aeronautics and Astronautics, China Nengqiang Jin Institute of Electrical Engineering of the Chinese Academy of Sciences, China Wubin Kong Huazhong University of Science and Technology, China Dawei Li Huazhong University of Science and Technology, China Dayi Li Huazhong University of Science and Technology, China Jian Li Huazhong University of Science and Technology, China Liyi Li Harbin Institute of Technology, China Mingxian Li Jingke Electric Co., Ltd., China Xianglin Li Qingdao University, China Yanxin Li Zhejiang University, China Yaohua Li Institute of Electrical Engineering of the Chinese Academy of Sciences, China Yongdong Li Tsinghua University, China Wei Lian Wenzhou Minglianxing Electromechanical Technology Co., Ltd., China Deliang Liang Xi'an Jiaotong University, China Guobin Lin Tongji University, China Heyun Lin Southeast University, China Mingyao Lin Southeast University, China Chunhua Liu City University of Hong Kong, China Kan Liu Hunan University, China Yi Liu Huazhong University of Science and Technology, China Yuanjiang Liu Goertek Co., Ltd., China Zhengguo Liu Northwestern Polytechnical University, China
6
Zhiqiang Long National University of Defense Technology, China Gang Lv Beijing Jiaotong University, China Mingna Ma Hefei University of Technology, China Wenzhong Ma China University of Petroleum, China Heng Nian Zhejiang University, China Shuangxia Niu The Hong Kong Polytechnic University, China Jianfei Pan Shenzhen University, China Ronghai Qu Huazhong University of Science and Technology, China Xuanfeng Shangguan Henan Polytechnic University, China Jianxin Shen Zhejiang University, China Liming Shi Institute of Electrical Engineering of the Chinese Academy of Sciences, China Jikai Si Zhengzhou University, China Shoujun Song Northwestern Polytechnical University, China Wensheng Song Southwest Jiaotong University, China Guangsheng Sun Institute of Electrical Engineering of the Chinese Academy of Sciences, China Zhaolong Sun Naval University of Engineering, China Shanmin Wan Huazhong University of Science and Technology, China Daohan Wang Shandong University, China Fengxiang Wang Fujian Institute of Research on the Structure of Matter, Chinese Academy of Sciences Gaolin Wang Harbin Institute of Technology, China Jianqiao Wang WOLONG Co., Ltd., China Jin Wang Huazhong University of Science and Technology, China Kai Wang Nanjing University of Aeronautics and Astronautics, China Ke Wang Institute of Electrical Engineering of the Chinese Academy of Sciences, China Shuanghong Wang Huazhong University of Science and Technology, China Wei Wang Southeast University, China Xiuhe Wang Shandong University, China Xudong Wang Shanghai DianJi University, China Yawei Wang Huazhong University of Science and Technology, China Jinyu Wen Huazhong University of Science and Technology, China Lijian Wu Zhejiang University, China Tao Wu China University of Geosciences (Wuhan), China Xinzhen Wu Qingdao University, China Xianfei Xie Huazhong University of Science and Technology, China Dianguo Xu Harbin Institute of Technology, China Wei Xu Southeast University, China Xiaozhuo Xu Henan Polytechnic University, China Yanliang Xu Shandong University, China Baichang Yang Hubei Donper Electromechanical Group Co Ltd., China Kai Yang Huazhong University of Science and Technology, China Xiancheng Yang Zheda Yuheng Technology Development Co Ltd., China Xiaobao Yang Sichuan University, China
7
Jun Yao Chongqing University, China Caiyong Ye Huazhong University of Science and Technology, China Feng Ye Suzhou Henful Technology Co., Ltd., China Haitao Yu Southeast University, China Fengge Zhang Shenyang University of Technology, China He Zhang Harbin Institute of Technology, China Kunlun Zhang Southwest Jiaotong University, China Lu Zhang Harbin Institute of Technology, China Pinjia Zhang Tsinghua University, China Yanqing Zhang Institute of Electrical Engineering of the Chinese Academy of Sciences, China Yongchang Zhang North China Electric Power University, China Zhihua Zhang China Aerospace Science and Industry Co., Ltd., China Zhuoran Zhang Nanjing University of Aeronautics and Astronautics, China Jiwen Zhao Hefei University of Technology, China Mei Zhao Harbin Institute of Technology, China Wenliang Zhao Shandong University, China Ping Zheng Harbin Institute of Technology, China Libing Zhou Huazhong University of Science and Technology, China Jinming Zhu Hubei Donper Electromechanical Group Co., Ltd., China Jianqiao Zou Wuhan Second Ship Design and Research Institute, China
8
Conference Information
◆ Time Arrangements ✓ June 30th 14:00-21:00 (Registration and Check in) ✓ July 1st full day, July 2nd full day, July 3rd morning (Conference) ✓ July 3rd afternoon (Technical Tour)
◆ Conference Venue East Lake International Conference Center
◆ Organizer Huazhong University of Science and Technology (HUST)
◆ Sponsors Huazhong University of Science and Technology (HUST) IEEE IEEE Industry Application Society (IAS)
◆ Co-sponsors School of Electrical and Electronic Engineering, HUST Southwest Jiaotong University, SWJTU IEEE Industrial Electronics Society (IES) Wuhan Chapter China Electrotechnical Society (CES)
◆ Topics ✓ Trend and new development of linear drives ✓ Electromagnetic linear motors and actuators ✓ Non-electromagnetic linear motors and actuators ✓ Control methods for linear drives ✓ Levitation technologies ✓ Subsystems of linear drives ✓ Applications of linear drives and levitation technologies ✓ Analysis of electromagnetic fields and force fields ✓ Materials ✓ Other related topics
◆ Contact [email protected] Amendy: +86 18627757420; [email protected] Honglin Peng: +86 13995671562
9
Conference Schedule
Hall
Oral
Hall
Oral
Session 16 Session
Session 13 Session
Dingxiang
Dingxiang
&
Oral
Oral
Lunch
MoliHall
MoliHall
Session 15 Session
Session 12 Session
OrioleHall
Lunch Break Lunch
CoffeeBreak
QianjiangHall
Technical Tour Technical
Award Ceremony & Closing Ceremony Award
Hall
Oral
Hall
Oral
Saturday, July 3rd July Saturday,
Qianjiang
Qianjiang
Session 14 Session
Session 11 Session
12:00
11:30-
14:00- 17:20
12:00- 14:00
10:10- 11:30
09:50- 10:10
08:30- 09:50
Oral
Oral
Poster
Poster
Poster
Session 6 Session
Session 3 Session
PosterArea
PosterArea
PosterArea
Session 5 & 5 Session 6
Session 3 & 3 Session 4
Session 1 & 1 Session 2
DingxiangHall
DingxiangHall
16:00- 17:00
15:00- 16:00
14:00- 15:00
&
Oral
Oral
Lunch
Session 5 Session
Session 2 Session
MoliHall
MoliHall
OrioleHall
OrioleHall
Registration
Lunch Break Lunch
CoffeeBreak
BuffetDinner
ConventionCenter Gate No.3
&
&
Friday, July 2nd July Friday,
Oral
Oral
Session 8 Session
MoliHall
MoliHall
Session 10 Session
Industry Session 2 Session Industry
Industry Session 1 Session Industry
CoffeeBreak
Oral
Oral
Session 4 Session
Session 1 Session
QianjiangHall
QianjiangHall
Hall
Oral
Hall
Oral
Session 9 Session
Session 7 Session
Qianjiang
Qianjiang
19:00
17:30-
15:40- 17:00
15:20- 15:40
14:00- 15:20
12:00- 14:00
10:10- 11:30
09:50- 10:10
08:30- 09:50
08:00- 08:30
Conference Conference Schedule
Online
(Invited)
Committee Meeting Committee
International Steering International
19:00- 21:00
&
Lunch
Registration
Lunch Break Lunch
CoffeeBreak
CoffeeBreak
Invited Talk 8 Talk Invited
Invited Talk 7 Talk Invited
Invited Talk 6 Talk Invited
Invited Talk 5 Talk Invited
Invited Talk 4 Talk Invited
Invited Talk 3 Talk Invited
Invited Talk 2 Talk Invited
Invited Talk 1 Talk Invited
Taking Photos Taking
QingchuanHall
QingchuanHall
QingchuanHall
QingchuanHall
QingchuanHall
QingchuanHall
QingchuanHall
QingchuanHall
QingchuanHall
Opening Ceremony Opening
The Yangtze River Yangtze The Hall
ConventionCenter Gate No.3
Thursday, July 1st July Thursday,
&
Gala Dinner Gala
Performance
The Yangtze River Yangtze The Hall
18:00- 20:00
16:45- 17:30
16:00- 16:45
15:45- 16:00
15:00- 15:45
14:15- 15:00
13:30- 14:15
12:00- 13:30
11:00- 11:45
10:15- 11:00
10:00- 10:15
09:15- 10:00
09:00- 09:15
08:30- 09:00
08:00- 08:30
&
No.3
No.3
OrioleHall
Registration
Registration
BuffetDinner
Welcome Reception Welcome
ConventionCenter Gate
ConventionCenter Gate
Wednesday, June 30th June Wednesday,
19:00- 21:00
17:30- 19:00
14:00- 17:30
21:00
20:00
19:00
18:00
17:00
16:00
15:00
14:00
13:00
12:00
11:00
10:00
09:00 08:00
10
Agenda
July 1, Thursday Room: Qingchuan Hall
08:00-08:30 Registration Opening Ceremony
Chair: Prof. Guangtong Ma Southwest Jiaotong University, China
Welcome Speech Prof. Wei-Jen Lee President of the IEEE Industry Application Society 08:30-09:00 Prof. Hiroyuki Ohsaki President of the International Steering Committee for LDIA Vice President Huazhong University of Science and Technology 09:00-09:15 Taking Photo Invited Talk
Chairs: Prof. Yanpu Zhao Wuhan University, China Prof. Ruiwu Cao Nanjing University of Aeronautics and Astronautics, China
History and Activities of the IEEJ Linear Drives Technical Committee – Some Recent Technology Trends of Linear Motors and Magnetic Levitation 09:15-10:00 Prof. Hiroyuki Ohsaki University of Tokyo, Japan President of the International Steering Committee for LDIA
10:00-10:15 Coffee Break
Chairs: Prof. Guobin Lin Tongji University, China Prof. Wei Hua Southeast University, China
What is Wrong in Most Papers with the Equivalent Circuit for LIMs Prof. Jacek F. Gieras 10:15-11:00 UTP University of Sciences and Technology IEEE Fellow
Hyperloop, the New Mode of Transportation 11:00-11:45 Dr. Arbi G. Siraki Director of Pod Hardware Engineering department at Virgin Hyperloop
12:00-13:30 Lunch
Chairs: Prof. Jiwen Zhao Hefei University of Technology, China Prof. Dong Jiang Huazhong University of Science and Technology, China
11
Research on Permanent Magnet Linear Machines with Primary Excitation 13:30-14:15 Prof. Yunyue Ye and Prof. Qinfen Lu Zhejiang University, China
Drive and Control Technology for High Precision Linear Servo System 14:15-15:00 Prof. Liyi Li Harbin Institute of Technology, China
Design and Control for Linear Oscillatory Motion Motor/Generators and Drives: An Overview Prof. Ion Boldea 15:00-15:45 University Politehnica Timisoara, Romania IEEE Life Fellow
15:45-16:00 Coffee Break
Chairs: Prof. Xudong Wang Shanghai DianJi University, China Prof. Chi Zhang Ningbo Institute of Materials Technology & Engineering, CAS
Special Linear Motor Technology Applied in Pulse Power Area 16:00-16:45 Prof. Junyong Lu Naval University of Engineering, China
Application of Linear Motor in China's Rail Transit 16:45-17:30 Dr. Yunfeng He Director of Maglev Product Research Institute of CRRC Zhuzhou Motor Co., Ltd.
18:00-20:00 Gala Dinner & Performance & LDIA 2023 Introduction 19:00-21:00 International Steering Committee Meeting (Invited only)
12
July 2, Friday
Oral Presentation / Industry Session Time Oral / Industry Session Room Session 1: Analysis of Electromagnetic Fields and Force Fields Qianjiang Hall 08:30-09:50 Session 2: Applications of Linear Drives and Levitation Technologies Moli Hall Session 3: Control Methods for Linear Drives Dingxiang Hall 09:50-10:10 Coffee Break
Session 4: Control Methods for Linear Drives & Electromagnetic Qianjiang Hall Linear Motors and Actuators 10:10-11:30 Session 5: Control Methods for Linear Drives Moli Hall Session 6: Electromagnetic Linear Motors and Actuators Dingxiang Hall 12:00-14:00 Lunch Session 7: Online Qianjiang Hall
14:00-15:20 Session 8: Online Industry Session 1: Direct Drive Technology: Advantages and Moli Hall Applications
15:20-15:40 Coffee Break Session 9: Online Qianjiang Hall
15:40-17:00 Session 10: Online Industry Session 2: Central-I Controller Application at Multi-Axes Moli Hall High Performance System
Poster Presentation Time Poster Session Location
Session 1: Subsystems of Linear Drives & Analysis of 14:00-15:00 Electromagnetic Fields and Force Fields Session 2: Control Methods for Linear Drives
Session 3: Control Methods for Linear Drives & Other Related Topics and New Technologies
15:00-16:00 Session 4: Other Related Topics and New Technologies & Trend and Poster Area New Development of Linear Drives & Levitation Technologies & Non- Electromagnetic Linear Motors and Actuators
Session 5: Electromagnetic Linear Motors and Actuators
16:00-17:00 Session 6: Electromagnetic Linear Motors and Actuators & Materials & Applications of Linear Drives and Levitation Technologies
13
July 3, Saturday
Oral Presentation Time Oral Session Room Session 11: Electromagnetic Linear Motors and Actuators Qianjiang Hall Session 12: Electromagnetic Linear Motors and Actuators & Levitation Moli Hall 08:30-09:50 Technologies Session 13: Trend and New Development of Linear Drives & Dingxiang Hall Subsystems of Linear Drives
09:50-10:10 Coffee Break Session 14: Levitation Technologies & Other Related Topics and New Qianjiang Hall Technologies
10:10-11:30 Session 15: Levitation Technologies Moli Hall Session 16: Subsystems of Linear Drives & Non-Electromagnetic Dingxiang Hall Linear Motors and Actuators
Closing Ceremony
Chair: 11:30-12:00 Prof. Qinfen Lu Qianjiang Hall Zhejiang University
12:00-14:00 Lunch Oriole Hall 14:00-17:20 Technical Tour
14
Invited Talks
Prof. Ion Boldea IEEE Life Fellow Dept of Electrical Engineering University Politehnica Timisoara, Romania
Design and Control for Linear Oscillatory Motion Motor/Generators and Drives: An Overview
Ion Boldea (IEEE Fellow, 1996) received the M.S. and Ph.D. degrees in electrical engineering from the Politehnica University of Timisoara, Timisoara, Romania, in 1967 and 1973, respectively.
He is currently a Professor Emeritus with the Politehnica University of Timisoara, Romania. He worked and published extensively in linear and rotary electric machines, drives, and magnetic levitation vehicles, etc., where he is currently one IEEE Life Fellow. He has published numerous (20+) books in USA and U.K, with 8000+ entrances in libraries worldwide.
He spent in many periodic trips, in all more than 10 years, with Universities of Kentucky, Oregon, UT Dallas in USA, University of Glasgow in U.K, Aalborg University in Denmark etc. as visiting scholar since 1973 to present, in his search for knowledge and wisdom.
Dr. Boldea is a member of the IEEE-IAS Industrial Drives and Electric Machines Committees since 1992, hosted a few Special Issues of IEEE Transactions on Industrial Electronics, and was selected as IEEE-IAS Distinguished lecturer for 2008-2009. He held many distinguished lectures and intensive/tutorial courses (a few at IEEE mainstream conferences) ever since in USA, E.U (Italy, Aalborg, Denmark) and Brazil and held international annual consulting projects with industry in the last 40+ years. He supervised 20+ PhD students and many tens of M.S. students.
He has chaired the OPTIM International Biannual Conferences (IEEE-IAS sponsored) since 1996. Also, he founded and edits still the internet only international journal www.jee.ro since 2000. He also co-founded, with a few former brilliant graduation students, in 1994 an engineering company www.beespeed.ro, today with more than 150 electric engineers in industrial electric digital automation and automotive safety, with modern electric drives as the main enabling technology (more than 60MW, installed in various applications).
For contributions to design and control for electrical machines and drives, was elevated/awarded as Fellow of the Academy of Europe, Fellow of the Academy of Romania, IEEE Nikola Tesla Award, etc.
15
Design and Control for Linear Oscillatory Motion Motor/Generators and Drives: An Overview
Linear motion industrial motor/generator drives have been widely applied in din industry till now, from the direct electromagnetic propulsion (in wheeled) or integrated with propulsion and suspension control in linear metro, MAGLEV vehicles, etc. One of the promising directions in the near future is Linear Oscillatory Motor/Generators for “direct” drives forward or backward with high efficiency, small space, long lifetime, etc., which can find greatly potential market in free piston Stirling linear compressors adopted to refrigerators, air-conditioners, EV range extenders, and so on. This speech will present comprehensive overview on the following topics:
(1) Application opportunities for linear oscillatory motion motor/generator (LOM/G) drives,
(2) Principal advantages and challenges in LOM/Gs,
(3) Competitive topologies of LOM/Gs with mechanical or implicit/cogging-force springs for resonant operation (at high efficiency): short stroke single phase and longer stroke 3 phase variants,
(4) Advanced analytical, numerical modeling and optimal design LOM/Gs recent progress with sample results,
(5) Advanced control strategies with and without linear encoders at constant (for compressors) and variable (for valves or car active suspensions) oscillation frequency, with sample results,
(6) High efficiency testing methodologies for LOM/G drives, with sample results, and so on.
16
Prof. Jacek F. Gieras PhD, DSc, FIEEE Dept of Electrical Engineering UTP University of Sciences and Technology
What is Wrong in Most Papers with the Equivalent Circuit for LIMs
Jacek F. Gieras (IEEE Fellow, 2002) graduated in 1971 from the Technical University of Lodz, Poland, with distinction. He received his PhD degree in Electrical Engineering in 1975 and Dr habil. degree (corresponding to DSc), also in Electrical Engineering, in 1980. His research area is Electrical Machines, Drives, Electromagnetics, Railway Engineering and Aircraft Electric Systems.
From 1971 to 1998 he pursued his academic career at several Universities worldwide including Poland, Canada, Jordan and South Africa. He was also a Central Japan Railway Company Visiting Professor at the University of Tokyo (Endowed Chair in Transportation Systems Engineering), Guest Professor at Chungbuk National University, Cheongju, South Korea, Guest Professor at University of Rome La Sapienza, Italy, Guest Researcher at Korea Electrotechnology Research Institute, Changwon, South Korea, and Guest Professor at Zhejiang University, Hangzhou, China. Since 1998 he has been affiliated with United Technology Corporation, U.S.A., most recently with UTC Aerospace Systems Applied Research.
Prof. Gieras authored and co-authored 13 books, over 250 scientific and technical papers, 102 US patents, 17 European patents and 4 Polish patents. Two of his books, i.e., "Linear Induction Motors", Oxford University Press, 1994 and "Linear Synchronous Motors", CRC Press – Taylor & Francis, Boca Raton, Florida, 1999, second edition 2012, are devoted to linear motors and magnetic levitation.
He is a Fellow of IEEE, USA, UTC Aerospace Systems Fellow, USA, Full Member of International Academy of Electrotechnical Sciences, and member of Steering Committees of numerous international conferences.
What is Wrong in Most Papers with the Equivalent Circuit for LIMs
The difference between equivalent circuits of cage induction motors (rotor with concentrated parameters) and single- sided LIMs with solid steel or Al cap over solid steel (reaction rail with distributed parameters) has been analyzed. In LIMs, both the resistance and reactance of the secondary circuit are functions of the slip and the magnetic field intensity. This results from the definition of the wave impedance of a solid conductive medium, i.e., the ratio of the electric component–to–the magnetic component of field intensities at the surface. The impedance of the reaction rail must be derived on the basis of the electromagnetic field distribution. Most authors make typical errors assuming that the reaction rail of a LIM with distributed parameters behaves similar to the cage rotor of an induction motor. Therefore, in most papers the same T-type equivalent circuit as for cage induction motors is applied to LIMs with distributed-parameters reaction rail. Although, the derivation of equation for the longitudinal end effect is complex, the longitudinal end effect can be simply included in the T-type equivalent circuit by introducing the so called “end effect impedance” in the vertical branch. Both equivalent circuits without and with the end effect taken into account have been considered.
17
Prof. Hiroyuki Ohsaki Department of Advanced Energy Graduate School of Frontier Sciences The University of Tokyo, Japan
History and Activities of the IEEJ Linear Drives Technical Committee – Some Recent Technology Trends of Linear Motors and Magnetic Levitation
Hiroyuki Ohsaki received the B. E., M. E., and Dr. Eng. degrees in electrical engineering from the University of Tokyo, Japan, in 1983, 1985 and 1988, respectively. He joined the Department of Electrical Engineering, the University of Tokyo in 1988. From 2004 he is a Professor at the Department of Advanced Energy, Graduate School of Frontier Sciences, the University of Tokyo, Japan. From April 2019 to March 2021, he was the Dean of the Graduate School of Frontier Sciences, the University of Tokyo. His current research interests include applied superconductivity, electrical machines, linear drive systems, magnetic levitation technologies, etc. Prof. Ohsaki is the President-Elect of the Institute of Electrical Engineers of Japan from May 2020 to May 2021. He was the chair of the Membership Development Committee of the IEEE Tokyo Section in 2011 and 2012, and the chair of the IEEE Power & Energy Society Japan Joint Chapter in 2017 and 2018. He is a fellow of the Institute of Physics and the Institute of Electrical Engineers of Japan. From June 2011 to May 2020, he was the chair of IEC TC 77 (Electromagnetic Compatibility) and a member of IEC ACEC (Advisory Committee on Electromagnetic Compatibility). He is the vice chair of the Executive Committee of IEA High-Temperature Superconductivity Technology Collaboration Program. Prof. Ohsaki is the chair of the International Steering Committees of both the International Symposium on Linear Drives for Industry Applications (LDIA) and the International Conference on Magnetically Levitated Systems and Linear Drives (MAGLEV).
History and Activities of the IEEJ Linear Drives Technical Committee–Some Recent Technology Trends of Linear Motors and Magnetic Levitation
The Linear Drives Technical Committee was established at the Institute of Electrical Engineers of Japan (IEEJ) in October 1987 and has investigated technology trends of linear motors and magnetic levitation. The committee has made a great contribution to the academic and industrial development of linear drive technology in Japan and published some books and reports on the investigated technology. It organized some international technical meetings such as the International Symposium on Linear Drives for Industry Applications (LDIA) and the International Conference on Magnetically Levitated Systems and Linear Drives (MAGLEV). In the keynote speech an overview of the 34-year history and activities of the committee is presented.
As of March 2021, under the Technical Committee, three investigating R&D committees are doing technical survey and investigation of (1) linear motors and actuators, (2) magnetic levitation, and (3) linear drive technology for industry applications. Based on the results of activities of the investigating R&D committees, some recent technology trends of linear motors and magnetic levitation are also presented in the speech.
18
Prof. Yunyue Ye College of Electrical Engineering Zhejiang University
Research on Permanent Magnet Linear Machines with Primary Excitation
Prof. Yunyue Ye graduated in Zhejiang University in 1978, and became Professor since 2000. His research area is about linear motor system. During the research, he spent a lot of time to realize the industry application of linear motors by cooperating with companies, especially the linear induction motors.
He has published nine books, 150+ papers, 30+ Chinese innovation patents. Since 2015, he is elected as chairman of the Professional Committee of Linear Motor, China Electrotechnical Society (CES).
Prof. Qinfen Lu College of Electrical Engineering Zhejiang University
Dr. Qinfen Lu is a Full Professor in the College of Electrical Engineering, Zhejiang University, China. She is also the Vice-chairmen and Secretary-general of Professional Committee of Linear Motor, China Electrotechnical Society (CES). She has already taken charge of over 20 projects, published over 150 papers, and authorized 23 Chinese inventive patents. Her main researches include linear motors design and control, PM motors design and control, and the simulation of traction systems.
19
Research on Permanent Magnet Linear Machines with Primary Excitation
The permanent magnet linear machine with primary excitation (PE-PMLM) is a special type of linear machine derived from traditional permanent magnet linear machines, which has the advantages of high thrust force density, high efficiency, high precision and high reliability. In the field of long-stroke direct-drive linear motion, PE-PMLM exhibits its unique performance and cost advantages. This speech reviews and summarizes the research status and development trend of the PE-PMLM. Main topics are follows:
(1) The thrust force generation mechanism of the PE-PMLM is revealed based on the flux modulation theory.
(2) The technical points and research progress of various kinds of PE-PMLM are reviewed.
(3) Comprehensive performances of all kinds of PE-PMLM are compared and analyzed.
(4) The future development trend is discussed.
20
Prof. Liyi Li IEEE Senior Member “Yangtze Fund Scholar” Distinguished Professor School of Electrical Engineering and Automation Harbin Institute of Technology (HIT)
Drive and Control Technology for High Precision Linear Servo System
Liyi Li (IEEE Senior Member) received the B.E., M.E., and D.E. degrees from the Harbin Institute of Technology (HIT), Harbin, China, in 1991, 1995, and 2001, respectively. Since 2004, he has been a Professor with the School of Electrical Engineering and Automation, HIT.
In 2013, he became “Yangtze Fund Scholar” Distinguished Professor, and he was supported by the National Science Fund for Distinguished Young Scholars. He has authored or coauthored more than 110 technical papers and is the holder of 50 patents. His research interests include design, drive and control of linear motors, design and drive of high-speed/power density permanent magnet machines.
Drive and Control Technology for High Precision Linear Servo System
The direct-drive linear motion systems have been largely popularized to the industry applications, such as the precision machine tools and semiconductor equipment, due to its prominent superiority of high-velocity, high dynamic and high-precision. However, various disturbance/uncertainty mainly caused by the endogenous parameter variation and exogenous perturbation impose large restrictions on the realization of these high-performance. Therefore, the disturbance/uncertainty estimation and attenuation technique has aroused large interests in the industry.
In order to reach the full potential of the PMLSM-driven motion system, this speech will talk about two basic drive and control technologies for high precision linear servo system:
(1) high-bandwidth and strong robust current response method: the deadbeat predictive current control,
(2) high-precision and high-dynamic position tracking control: sliding mode control and observer.
21
Prof. Junyong Lu National Key Laboratory of Science and Technology on Vessel Integrated Power System Naval University of Engineering
Special Linear Motor Technology Applied in Pulse Power Area
Junyong Lu is currently a Professor with the National Key Laboratory of Science and Technology on Vessel Integrated Power System, Naval University of Engineering, Wuhan, China. He was supported by the National Science Fund for Distinguished Young Scholars. He is the Head of National Innovation Team in Key Areas.
Professor Lu has been engaged in electromagnetic launch technology research for a long time and has made a series of original achievements in the field of high-speed electromagnetic launch linear motor. He held 75 invention patents and published 1 academic monograph, as well as more than 130 papers indexed by SCI/EI. Professor Lu won the National “Hundred-Thousand-Ten Thousand” Talent Project. He was awarded Ho Leung Ho Lee Innovation Award, Qiushi Outstanding Youth Practical Engineering Award and other awards. He enjoys the special government allowance of the State Council.
Special Linear Motor Technology Applied in Pulse Power Area
With the rapid development of electromagnetic launch technology, the executive linear motor plays an increasingly important role in high-speed and large-load linear motion. In order to fully explore and enhance the potential of linear motors in the field of electromagnetic launch, based on the author’s design experience and research achievement on linear motors for electromagnetic launch, this speech summarizes the related technologies of linear motors for electromagnetic launch. The speech includes four parts:
(1) The working principle, structure type and technical characteristics of linear motors for electromagnetic launch.
(2) The research status of linear motors for electromagnetic launch at home and abroad.
(3) The key technologies of linear motors for electromagnetic launch.
(4) The development trend and application prospect of linear motors for electromagnetic launch.
22
Dr. Yunfeng He Doctor, Professorate senior engineer Director of Maglev Product Research Institute of CRRC Zhuzhou Motor Co., Ltd
Application of Linear Motor in China's Rail Transit
Dr. Yunfeng He. Doctor, is a Professorate Senior Engineer, the Director of Maglev Product Research Institute of CRRC Zhuzhou Motor Co., Ltd.
He graduated from the college of electrical engineering of Hunan University in 1997, and in-service Doctor of Engineering of Zhejiang University in 2014. He has been engaged in the research and development of traction motor for rail transit for more than 20 years.
Responsible for the development of traction motors such as China's first metro train, the first intercity EMU, 863 project high-speed EMU and Fuxing 160 km/h power centralized EMU.
Led the team to develop all the domestic linear motors mentioned in this speech except for Guangzhou metro lines 4, 5 and 6, including medium and low speed maglev short stator linear motors with speeds of 100 km, 120 km and 160 km/h, long stator linear motors with speeds of 200 and 600 km/h, the localization of forced air-cooled linear motors for Beijing airport line and embedded maglev water-cooled linear motors, the engineering of coreless permanent magnet linear motor and high temperature superconducting coreless linear motor.
23
Application of Linear Motor in China's Rail Transit
The application of linear motor in rail transit is mainly used in wheel rail metro and maglev vehicles. China has commercial applications in wheel rail metro, medium and low-speed maglevs, and high-speed maglevs. The application of linear motor in China can best reflect the current engineering application status of linear motor in rail transit.
There are mainly two technical routes of linear metros: self-cooling and forced air cooling, which are both applied in China. Japanese linear motor vehicle adopts self-cooling linear motor, which is applied in Guangzhou Metro Line 4, 5 and 6; Bombardier vehicle adopts forced air-cooled linear motor, which is applied in Beijing airport line.
CRRC has completed the development of medium and low speed maglev platforms with short stator self-cooling linear induction motors of 100 km/h, 120 km/h and 160 km/h; Chengdu Xinzhu Co., Ltd. has introduced the built-in maglev system from Borg company in Germany, which adopts water-cooled linear motor.
In China, the development of high-speed maglev and low vacuum pipeline maglev is in full swing. CRRC has developed 200 km/h and 600 km/h normal conduction high-speed maglev prototype vehicles, and Southwest Jiaotong University’s 620 km/h HTS Maglev prototype vehicle has come off the assembling line. Shanghai-Hangzhou, Greater Bay Area, Kunming to Lijiang, Hefei to Wuhu and other lines are planned to use high-speed maglev. Because of the increase of speed and power, long stator linear synchronous motor is used in high-speed maglev.
In addition to the selection of motor types, engineering problems such as system matching, reliability and engineering production capacity often affect the drive system. Combined with the current situation of domestic rail transit linear motor, this speech will report the wheel rail linear motor, medium and low speed maglev linear motor, high-speed maglev linear motor topological structure, main advantages and challenges, basic parameters, structural characteristics, application status and development trend.
24
Dr. Arbi G. Siraki Doctor, A Licensed Professional Engineer Director of Pod Hardware Engineering department at Virgin Hyperloop
Hyperloop, the New Mode of Transportation
Dr. Arbi G.Siraki is a seasoned leader with over 15 years of work experience in Academia and industry. He is currently director of Pod Hardware Engineering department at Virgin Hyperloop where he oversees multiple hardware engineering teams developing the Hyperloop Pod. Prior to joining Virgin Hyperloop, Arbi worked at TM4 Inc as an electric motor research engineer for new EV propulsion system projects.
He is a licensed Professional Engineer from province of Ontario, Canada. He holds a PhD degree in Electrical Engineering, specializing in electric machines, from Concordia University, Montreal, Canada. He is the author of multiple journal and conference papers and recipient of the 2012 best thesis award in engineering and computer science at Concordia University, Montreal, Canada.
Hyperloop, the New Mode of Transportation The global human population is growing, world is getting more urbanized and traffic and crowded streets have already become a sad reality of our day-to-day life. No new mode of transportation has been developed in last couple of decades to address this problem and it is the time for a radical change. This prestation will talk about the mission of the Virgin Hyperloop and its approach to tackle this problem. The overall system and pod architecture will be discussed briefly. Finally, the history of linear propulsion systems developed to move Virgin Hyperloop pods will be presented.
25
Oral Presentations
Oral Session 1 Qianjiang Hall (潜江厅) Topic: Analysis of Electromagnetic Fields and Force Fields
Session Chairs: Jie Li Professor, National University of Defense Technology Jinhua Du Associate Professor, Xi’an Jiaotong University Time Paper ID Paper Title Optimization Design of PMSLM Based on Lasso Regression with 08:30-08:50 68 Embedded Analytical Model Zhilei Zheng, Jiwen Zhao, Lijun Wang
The Mechanical Constitutive Model of the Armature Material of the 08:50-09:10 127 Electromagnetic Rail Launcher under the Pulse Discharge Condition Peipei Du, Junyong Lu July 2nd Analysis and Calculation of Mechanical Structure Strength of High- 09:10-09:30 152 Speed Linear Motors for Electromagnetic Launch System Song Chi, Jianhu Yan, Jian Guo, Yuxi Zhang
Thrust Force Ripple Analysis of Linear Switched Reluctance Motors 09:30-09:50 182 Using Sobol Sensitivity Analysis Method Chen Chen, Sudan Huang, Guangzhong Cao, Gang Jing, Yan Liu
Oral Session 2 Moli Hall (茉莉厅) Topic: Applications of Linear Drives and Levitation Technologies
Session Chairs: He Zhang Associate Professor, Harbin Institute of Technology Tao Wu Associate Professor, China University of Geosciences Time Paper ID Paper Title Dynamic Modeling and Simulation of Propulsion and Levitation 256 08:30-08:50 System for Hyperloop (online) Siavash Sadeghi, Maryam Saeedifard, Chris Bobko
Vibration Analysis of Linear Motor Driven Stirling Cryocooler 08:50-09:10 54 Coupled with a Pneumatically Driven Expander Zhongli Xi, Han Jiang, Xiaoqing Zhang
July 2nd A Novel Long Stator Linear Doubly-Fed Motor for High-Speed Maglev with Integrated Suspension, Propulsion and Contactless 09:10-09:30 317 Power Supply Jinsong Kang, Siyuan Mu, Hao Ding
Modeling of Unequal Length Segmented Long Stator Linear Induction Motor 09:30-09:50 342 Ganlin Kong, Fei Xu, Liming Shi, Keyu Guo, Mingyuan Zhang, Yaohua Li
26
Oral Session 3 Dingxiang Hall (丁香厅) Topic: Control Methods for Linear Drives
Session Chairs: Jian Li Professor, Huazhong University of Science and Technology Zhiqiang Long Professor, National University of Defense Technology
Time Paper ID Paper Title Model Predictive Voltage Control for Linear Induction Machine 8 Without Weighting Factor 08:30-08:50 (online) Samir Hamad, Wei Xu, Ahmed Diab, Mosaad Ali, Syed Arslan Bukhari Contour Error Control of X-Y Motion Platform Based on Robust Predictive 08:50-09:10 101 Quankai Du, Qibin Xiong, Wugen Liu, Rongkun Wang, Wenjie Huang July 2nd A Deadbeat Direct Thrust Control for Permanent Magnet Linear 09:10-09:30 240 Synchronous Machine Considering Parameter Asymmetry Mengfei Zheng, Qinfen Lu
Sensorless DPCC of PMLSM Using SOGI-PLL Based High-Order SMO with Cogging Force Feedforward Compensation 09:30-09:50 138 Shilong Sun, He Cheng, Wuhui Wang, Hailong Liu, Shuai Mi, Xueqian Zhou
Oral Session 4 Qianjiang Hall (潜江厅) Topic: Control Methods for Linear Drives & Electromagnetic Linear Motors and Actuators
Session Chairs: Mingyi Wang Associate Professor, Harbin Institute of Technology Zhijian Fang Professor, China University of Geosciences
Time Paper ID Paper Title
Performance Comparison of Three Types of PWM Techniques for a 10:10-10:30 168 Five-phase PMSM with a Single-Phase Open Circuited Bing Tian, Jiasongyu Hu, Xuzhen Huang, Bo Zhou, Quntao An
Upgraded Limited-Step Predictive Control Strategy for Linear Induction Machine Based on Linear Metro 10:30-10:50 302 Syed Arslan Bukhari, Wei Xu, Mahmoud F. Elmorshedy, Abdul Khalique Junejo, Samir A. Hamad July 2nd Research on Two Design Approaches of Permanent Magnet Width 10:50-11:10 245 Modulation Secondary for Permanent Magnet Linear Synchronous Motor Meizhu Luo, Zijiao Zhang, Chaoqun Luo
A Novel Initial Mover Position Estimation Method for Planar Switched 11:10-11:30 24 Reluctance Motors with Bipolar Square-Wave Voltage Injection Jundi Sun, Guangzhong Cao, Qingquan Qian
27
Oral Session 5 Moli Hall (茉莉厅) Topic: Control Methods for Linear Drives
Session Chairs: Pinjia Zhang Associate Professor, Tsinghua University Xiaobao Yang Associate Professor, Sichuan University
Time Paper ID Paper Title Online Magnetizing Inductance Identification Strategy of Linear Induction Motor Based on Second-Order Sliding-Mode Observer and 10:10-10:30 326 MRAS Dinghao Dong, Wei Xu, Xinyu Xiao, Yi Liu
Research and Experimental Evaluation on the Control Strategy of the 10:30-10:50 297 Linear Induction Motor for Maglev Linghao Wu, Jian Li
nd July 2 Model Predictive Thrust Force Control for Modular Permanent Magnet Synchronous Linear Motor Based on Multi-Branch Inverter 10:50-11:10 154 Topology Lei Xu, Xiaoyong Zhu, Chao Zhang, Yi Du, Li Zhang, Hao Liu, Luyuan Liu, Xinyuan Yao
A New High Output Frequency Multilevel Inverter Topology of 11:10-11:30 351 Traction Converter for Superspeed Maglev Train Bo Zhang, Pei Yang, Qiongxuan Ge, Xiaoxin Wang, Yaohua Li
Oral Session 6 Dingxiang Hall (丁香厅) Topic: Electromagnetic Linear Motors and Actuators
Session Chairs: Mingna Ma Associate Professor, Hefei University of Technology Chun Gan Professor, Huazhong University of Science and Technology
Time Paper ID Paper Title Loss-Reduction Effect of Varying the Mover Motion in a Dual-Sided 95 Free-Piston Engine Generator System 10:10-10:30 (online) Shoma Irie, Jiamping Zheng, Mitsuhide Sato, Tsutomu Mizuno, Fumiya Nishinura, Kaname Naganuma
Calculation of Primary End Windings Electromagnetic Force of 10:30-10:50 119 Multiphase Linear Induction Motors Jin Xu, Zhengqing Han, Wanzhi Rui, Yichao Zhang, Mingke Li July 2nd Investigation of a Novel Linear Partitioned Primary Hybrid-Excited 10:50-11:10 139 Consequent-Pole Flux-Reversal Permanent Magnet Machine Bocheng Wu, Qinfen Lu, Yanxin Li, Zhiwei Zhang
Multi-Objective Optimization of the Linear Induction Motor by a 11:10-11:30 170 Hybrid Optimal Strategy Siyue Wu, Qinfen Lu
28
Oral Session 7 Qianjiang Hall (潜江厅) Arrangement Considering the Time Difference
Session Chairs: Liming Shi Professor, Chinese Academy of Sciences Yu Zhou Associate Professor, Sichuan University
Time Paper ID Paper Title
A New Unconventional Magnet Arrangement for Linear Permanent 231 14:00-14:20 Magnet Motors with Semi-FEA-Based Optimization Approach (online) Mehmet Gulec, Metin Aydin
Integrated Linear Flux Modulating Motor for a Direct-drive Belt 11 Conveyor 14:20-14:40 (online) Alexander Hoffmann, Malte Kanus, Ludger Overmeyer, Bernd Ponick July 2nd Electromagnetic Aspects of the Structural Integration of Linear 282 14:40-15:00 Synchronous Machines for a Hyperloop Technology (online) Sigrid Jacobs, Johan Rens, Elena Di Silvestro, Giuseppe Sellitto
Speed Regulation of Linear Induction Motor with Finite State 16 Predictive Thrust Control Based on Sliding Mode Controller 15:00-15:20 (online) Mahmoud F. Elmorshedy, Wei Xu , Mosaad Mohieddin, Syed Arslan Bukhari
Oral Session 8 Moli Hall (茉莉厅) Arrangement Considering the Time Difference
Session Chairs: Gang Lv Professor, Beijing Jiaotong University Mei Zhao Associate Professor, Harbin Institute of Technology
Time Paper ID Paper Title Control System Design and Experimental Verification of a Self- 226 Bearing Double-Stator Linear-Rotary Actuator 14:00-14:20 (online) Rosario Giuffrida, Spasoje Miric, Andreas Horat, Dominik Bortis, Johann Walter Kolar
Mechanical Construction and Bearing Function Integration in Tubular 250 14:20-14:40 Linear Flux Switching Machines (online) July 2nd Haidar Diab, Yacine Amara, Georges Barakat The Influence of Linear Permanent Magnet Generator Sizing on the 142 Techno-Economic Performance of a Wave Energy Converter 14:40-15:00 (online) Jian Tan, Xuezhou Wang, Antonio Jarquin Laguna, Henk Polinder, Sape Miedema
Industry Direct Drive Technology: Advantages and Applications 15:00-15:20 Session Xin Yin, Motor R&D Director, Akribis Systems
29
Oral Session 9 Qianjiang Hall (潜江厅) Arrangement Considering the Time Difference
Session Chairs: Yanxin Li Associate Professor, Zhejiang University Xiaoguang Wang Associate Professor, Hubei University of Technology
Time Paper ID Paper Title
A Linear Eddy Current Speed Sensor for Speed Measurement of 360 15:40-16:00 Magnetic and Nonmagnetic Conductive Objects (online) Mehran Mirzaei, Pavel Ripka, Vaclav Grim
Improved Drive Performance of Linear Induction Machine Based on Direct Thrust Control and Sliding Mode Control with Extended State 94 16:00-16:20 Observer Applied for Linear Metro (online) Mosaad Mohiedden Ali, Wei Xu, Mahmoud F. Elmorshedy, July 2nd Abdul Khalique Junejo, Samir A. Hamad, Moustafa Ismail Robust Adaptive Feedback Linearization Control Using Online Neural- 124 Network Estimators for Uncertain Linear Induction Motor Drive System 16:20-16:40 (online) Fayez F. M. El-Sousy, Mahmoud F. Elmorshedy, Mahmoud M. Amin, Osama A. Mohammed
Design and Control a Linear Motor with Planar V-Shaped Segmented 232 16:40-17:00 Magnet Arrangement (online) Ayse Boduroglu, Yusuf Ulu, Yucel Demir, Metin Aydin
Oral Session 10 Moli Hall (茉莉厅) Arrangement Considering the Time Difference
Session Chairs: Xuzhen Huang Professor, Nanjing University of Aeronautics and Astronautics Yi Du Professor, Jiangsu University
Time Paper ID Paper Title
Study of Eccentricity in a Tubular Linear Flux Switching Machine 253 15:40-16:00 Using 3D Finite Element Analysis (online) Habibou Lawali Ali, Haidar Diab, Yacine Amara, Georges Barakat
Validation of a Linear Motor for Hyperloop Applications using a 3- 238 axis Static Test Bench 16:00-16:20 (online) José Félix González-Rojo, Federico Lluesma-Rodríguez, Daniel Fons- July 2nd Sánchez, Anderson Steven Peña, Guillermo Regideor-Pérez Coupled Spectral Element Method and Harmonic Model for Magnetic 81 16:20-16:40 Modelling of Linear Synchronous Machines (online) Mitrofan Curti, Dave C. J. Krop, Elena A. Lomonova
Central-I Controller Application at Multi-Axes High Performance Industry 16:40-17:00 System Session Sophia Xie, EE R&D Manager, Akribis Systems
30
Oral Session 11 Qianjiang Hall (潜江厅) Topic: Electromagnetic Linear Motors and Actuators
Session Chairs: Wei Wang Associate Professor, Southeast University Xi Chen Research Assistant, Huazhong University of Science and Technology
Time Paper ID Paper Title Modeling and Optimization of Detent Force for Flexible Permanent Magnet Synchronous Linear Motor Considering Spacing Between 08:30-08:50 176 Primaries Qian Huang, Xuzhen Huang, Wei Yu Power Supply Method and Inductance Measurement Research on Linear Induction Motor 08:50-09:10 234 Yuman Li, Yongkang Zhang, Zhiwei Cai, Xiao Ma, Ruicheng Guo, Zhe Wang July 3rd Core Loss and Deformation Computation in Permanent Magnet Linear Motors Considering the Effect of Stress on Magnetic and 09:10-09:30 263 Magnetostrictive Properties Daiyan Li, Yanli Zhang, Ying Jing, Chang-Seop Koh, Dexin Xie
Analysis of the Integration of a Repulsive Magnetic Spring in a Planar 285 09:30-09:50 Linear Oscillatory Actuator (online) Florian Poltschak, Richard Haider
Oral Session 12 Moli Hall (茉莉厅) Topic: Electromagnetic Linear Motors and Actuators & Levitation Technologies
Session Chairs: Xinglai Ge Professor, Southwest Jiaotong University Dawei Li Associate Professor, Huazhong University of Science and Technology
Time Paper ID Paper Title
Research on Thrust Ripple of Aperiodic Transient Linear Induction 08:30-08:50 309 Motors Zhengqing Han, Jin Xu, Wanzhi Rui, Yichao Zhang, Mingke Li
Design and Analysis of Permanent Magnet Linear Synchronous Motor 339 08:50-09:10 Made by Oriented Silicon Steel Sheet (online) Ting Dong, Renjie Fu July 3rd A Working Air-gap and Magnetic Circuit Topology Analysis Based Method for Straightly-Acting Solenoid Valve Design 09:10-09:30 340 Xiangdong Feng, Jiaxin You, Huimin Liang, Chenglong Zhou, Shan Jiang
A Zero-position Correction Method for a Novel 6-DOF Magnetic 09:30-09:50 175 Levitation Motor Using Excitation Current Zi’na Huang, Guangzhong Cao, Sudan Huang, Lijia Wang
31
Oral Session 13 Dingxiang Hall (丁香厅) Topic: Trend and New Development of Linear Drives & Subsystems of Linear Drives
Session Chairs: Zhaolong Sun Associate Professor, Naval University of Engineering Wenliang Zhao Professor, Shandong University
Time Paper ID Paper Title
Decoupling Control of Traction-and-Guidance in Bilateral Air-Core 08:30-08:50 17 Linear Synchronous Motor Zhen Jia, Jie Li, Peng Leng, Qiang Chen
Optimization of a Novel Linear-Rotary Permanent Magnet Generator for Wind-Wave Combined Energy Conversion via TOPSIS Decision 08:50-09:10 27 Making Rui Nie, Jikai Si, Shuai Xu, Guozhen Zhang, Zhongwen Li, July 3rd Zhiping Cheng
Thrust Optimization of Primary Permanent Magnet Linear Motor with 09:10-09:30 53 Magnetic Barrier Coupling Based on Halbach Distribution Yan Li, Chunyu Qu, Xiuping Wang
Linear Variable Differential Transformer with High Disturbance 284 09:30-09:50 Rejection for Integrated Solenoid Position Detection (online) Florian Poltschak, Georg Hartl
Oral Session 14 Qianjiang Hall (潜江厅) Topic: Levitation Technologies & Other Related Topics and New Technologies
Session Chairs: Huawei Zhou Professor, Jiangsu University Wubin Kong Associate Professor, Huazhong University of Science and Technology
Time Paper ID Paper Title Multi-objective Optimization of Suspension System for EDS Maglev Train with HTS Magnets Based on Forbearing Stratified Sequencing 10:10-10:30 308 Method and PSO Xixia Gong
Thermal Modeling of Tubular Permanent Magnet Linear Synchronous 10:30-10:50 111 Motor Based on Random Forest Tao Wu, He Wang, Youguang Guo, Gang Lei, Jiangguo Zhu July 3rd Winding Design and Optimization of Single-phase Permanent Magnet 118 10:50-11:10 Tubular Linear Generator for Direct-Drive Wave Power Generation (online) Aiyuan Wang
Analysis and Control of Inductive Contactless Power Transfer System 11:10-11:30 229 with Secondary Regulator Zhenggang Yin, Liming Shi
32
Oral Session 15 Moli Hall (茉莉厅) Topic: Levitation Technologies
Session Chairs: Ke Wang Professor, Chinese Academy of Sciences Jingang Lai Research Fellow, RWTH Aachen University, Germany
Time Paper ID Paper Title
Model Improvement and Optimal Design of a Large-Load Magnetic 10:10-10:30 14 Levitation Gravity Compensator Lishan Zhou, He Zhang, Baoquan Kou
Study on Transient Electromagnetic Characteristics Based on Typical 10:30-10:50 128 Soft Magnetic Material for EMS Maglev Train Kai Bo, Youxing Xiong, Xiwen Yu, Jiasi Wu, Yu Wang July 3rd A New Four-Phase Current Distribution Strategy for the Novel 6-DOF 10:50-11:10 178 Maglev Motor Lijia Wang, Sudan Huang, Guangzhong Cao, Zi’na Huang
Electromagnetic Analysis of Hybrid-Excitation Magnetic Levitation 11:10-11:30 328 System for Low-Speed Maglev Train Linsen Wang, Qinfen Lu
Oral Session 16 Dingxiang Hall (丁香厅) Topic: Subsystems of Linear Drives & Non-Electromagnetic Linear Motors and Actuators
Session Chairs: Yawei Wang Associate Professor, Huazhong University of Science and Technology Zhentian Liu Lecturer, Naval University of Engineering
Time Paper ID Paper Title
286 Non-Contact Position Sensing of Five Axes for Linear Motor Systems 10:10-10:30 (online) Florian Poltschak, Paul Grundhammer
Starting Strategy and Self-Tuning Technology of Permanent Magnet 10:30-10:50 165 Linear Synchronous Motor (PMLSM) Based on Hall Sensor Xuzhe Ding, Xuzhen Huang , Anpeng Wang, Yiwei Zhang July 3rd Longitudinal End Effect of Line-Start Permanent Magnet Linear 10:50-11:10 115 Synchronous Motors Jun Di, Weili Li, John Fletcher
Neural Adaptive Control for the Dynamic Hysteresis in Piezoelectric 136 11:10-11:30 Actuators (online) Xinliang Zhang, Junwei Kong, Xiaozhuo Xu
33
Poster Presentations
Poster Session 1 Poster Area, 14:00~15:00, July 2nd Topics: Subsystems of Linear Drives & Analysis of Electromagnetic Fields and Force Fields
Session Chair: Lu Zhang Associate Professor, Harbin Institute of Technology
Panel Paper ID Paper Title Authors Accurate Offline Electrical Parameters Identification Kai Kang, Mingyi Wang, Junchi P1 22 for Air-bearing PMLSM Li, Qinwei Sun, Liyi Li Liang Zhou, Chen Deng, 42 Investigation on the 36MVA PP-IGBT-Based Power P2 Weichao Li, Ming Yan, Jinyang (online) Converter for High-Speed Maglev Applications Han, Ying Zhong 49 Fuzzy Control Algorithm of Switched Reluctance P3 Hao Chen, JingFu Liu (online) Linear Motor Based on Parameter Adaptation Jian Wei, Baoquan Kou, Lu A Class of Control Strategies Based on Bias Current P4 61 Zhang, Hailin Zhang, Dexue Decouple for High Precision Current Converter Song
An Improved Method for Force Ripple Yudong Liu, Mingyi Wang, P5 89 Compensation of PMLSM Based on An Incremental Guyiming Zeng, Liyi Li Kalman Filter
Quasi-Free Position Control of Permanent Magnet Jun Huang, Xuzhen Huang, 179 P6 Synchronous Linear Motor Based on Low- Anpeng Wang, Zhihao Ma, Yi (online) Resolution Hall Sensor Chen, Yuqing Zhu Characteristics Analyses of Wireless Power Transfer P7 202 Hua Cai for Ultra-High Speed Maglev Train Damping Force Improvement of a Dual-Sided Na Sang, Chi Zhang, Miao P8 296 Hybrid Excitation Eddy Current Damper by Using Yang, Rong Li, Shuheng Qiu Steel-Copper Plate Secondary
Analysis of Traction Characteristics in Single-Sided Dihui Zeng, Bo Zhang, Xiaoxin P9 20 Linear Induction Motors with Composite Secondary Wang, Pei Yang, Qiongxuan Ge, Considering Saturation and Hysteresis Yaohua Li
Equivalent Circuit Model of Long Primary Yinhao Mao, Zhaolong Sun, P10 31 Permanent Magnet Linear Synchronous Motor Weichang Zhou, Fengrui Cui Considering End Effect
Wei Zheng, Zhaolong Sun, 33 Research on Low-Speed and Large-Thrust Linear P11 Fengrui Cui, Hanning Qian, (online) Motor Used in Electromagnetic Transporting Weichang Zhou
Weichang Zhou, Zhaolong Sun, Analysis of The Motor Asymmetry Caused by the P12 34 Yinhao Mao, Fengrui Cui, Static Longitudinal End Effect Hanning Qian
34
Panel Paper ID Paper Title Authors Magnetic Field Analysis of Permanent Magnet Mingjie Wang, Hailin Li, P13 66 Linear Synchronous Motor Based on The Improved Xiaozhuo Xu, Jianguo Zhu, Complex Relative Permeance Function Yongpeng Shen
Calculation Method of Nonlinear Magnetic Circuit P14 112 and Motor Performance Analysis for High-Power Chuibing Huang Linear Induction Motor
Yongzeng Li, Jing Li, Xuliang Braking Force Characteristics of Linear Eddy P15 137 Song, Libin Cui, Haiyang Yu, Current Brake System with AC Excitation Guangtong Ma
Optimization Design of Moving Magnet Type P16 161 Permanent Magnet Synchronous Linear Motor Lintong Xie, Jiwen Zhao Based on Long and Short Term Memory Network
185 High-Fidelity Digital Twin Modeling Method for P17 Bo Zhang (online) Contactor Operation Simulation
A Novel Force Ripple Reduction Method of Tubular 224 P18 Linear Switched Reluctance Actuators Based on Zhu Zhang (online) Multi-Stage Translator Poles
Normal Force Analysis of Permanent Magnet Linear Zhiren Wang, Jun Wu, Guanglei P19 243 Ejection Motor with Moving Armature Xie
An Acceleration Method for AC Steady State Yu Li, Yaojing Feng, Shoudao P20 261 Performance of Dual Three-Phase Machine: Huang, Bo Ma, Sa Zhu, Jianguo Modeling and Implementation Zhu
Magnetic Field Calculation of The Eccentric Jie Ren, Xiuhe Wang, Wenliang P21 269 Surface-Mounted Permanent Magnet Machine Zhao, Fujie Wang
Three Dimensional Magnetic Equivalent Circuit Deli Luo, Wei Xu, Xinyu Xiao, P22 281 Analysis of the Modified Homopolar Linear Ion Boldea Synchronous Machine
Magnetic Field Optimization of U-Type Ironless Shuheng Qiu, Jie Zhang, P23 295 Permanent Magnet Linear Motor Using Magnetic Xianbei Sun, Chi Zhang, Permeable Block Yunpeng Gao, Rong Li
Single Stage Convex Stepped Auxiliary Tooth P24 299 Structure Reduces the End Magnetic Resistance of Zhiyong Lan, Bin Xie Permanent Magnet Linear Synchronous Motor.
Optimization of Two-Dimensional Electrodynamic 304 Zhiyong Lan, Lifang Chen, Bin P25 Magnetic Levitation System Model Based on Linear (online) Xie, Qiuhui Zheng Halbach Magnet and Conductor Plate
Calculation and Analysis of Electromagnetic Feihong Yue, Zhaolong Sun, P26 311 Vibration of Transverse Flux Linear Oscillation Wei Xu, Xiang Li Motor with Moving Stator
Performance Analysis of Linear Induction Motors P27 315 Xinyu Xiao, Wei Xu, Jian Ge under Inverter Supply
35
Poster Session 2 Poster Area, 14:00~15:00, July 2nd Topics: Control Methods for Linear Drives
Session Chair: Lei Huang Associate Professor, Southeast University
Panel Paper ID Paper Title Authors The Transient State Analysis of Changing Step of P28 6 Long Stator Linear Synchronous Motor for Maglev Yangyang Li, Rong Wei Vehicle
Force Ripple Suppression of Permanent Magnet 10 Xiaowen Zhang, Tianyi Zhao, P29 Linear Synchronous Motor Based on Fuzzy Adaptive (online) Xianguo Gui Kalman Filter
Adaptive Sliding Mode Active Disturbance Rejection P30 21 Control of PMLSM Based on Simulated Annealing Liang Guo, Xu Zhang Particle Swarm Optimization Algorithm
Load Disturbance Suppression of Permanent Magnet Lijun Wang, Jiwen Zhao, Zhilei P31 23 Synchronous Linear Motor Based on a Discrete-Time Zheng Extended Sliding Mode Observer
Zhexin Zhuang, Zhaolong Sun, Based on MPC-DTFC for Velocity Tracking of P32 32 Zhentian Liu, Fengrui Cui, Permanent Magnet Synchronous Linear Motor Weichang Zhou
Linear Motor Nonsingular Terminal Sliding Mode Kang Zhang, Limei Wang, P33 40 Position Control Via A Disturbance Observer Xin Fang
Research on Parameters Identification Strategy of Pengkun Sun, Qiongxuan Ge, P34 52 High-Speed Maglev Train in Double-End Power Mutian Zhao, Jinquan Zhu, Bo Supply Mode Zhang
Xueqian Cao, Qiongxuan Ge, Bo Current Control Strategy of High-Speed Maglev P35 59 Zhang, Jinquan Zhu, Mutian Train Based on Sliding Mode Zhao, Yanxi Zheng
Research on Sliding Mode Variable Structure Speed Xiaofeng Zhang, Yongxiang Xu, P36 60 Control Algorithm of Winding Segmented Permanent Jibin Zou Magnet Linear Synchronous Motor
A Novel Singular Value Decomposition-Based 63 P37 Velocity Tracking Control for a Multi-DOF Wave Xiaogang Li, Jiameng Wang (online) Energy Converter
Joint Kalman Observer for Mechanical Multi- Xiaohu Zhang, Jiwen Zhao, Lijun P38 71 Parameter Decoupling Estimation of Permanent Wang, Dongbo Hu, Lintong Xi, Magnet Synchronous Linear Motor Xinyuan Bao
Cogging Force Identification Based on Self-Adaptive Xuewei Fu, Chenyang Ding, P39 77 Hybrid Self-Learning TLBO Trained RBF Neural Pericle Zanchetta, Xiaofeng Networks for Linear Motors Yang, Mi Tang, Yang Liu
36
Panel Paper ID Paper Title Authors Nonlinear Dynamic Modelling of the Planar Switched Xiangyi Deng, Guangzhong Cao, P40 78 Reluctance Motor Using Multi-Innovation Recursive Sudan Huang, Jundi Sun Extended Least Squares Method
Variable Gain Cross-Coupling Control System of Dual- 86 Zheng Li, Jinsong Wang, Jinfeng P41 Axis PM Synchronous Linear Motor Based on Model (online) An, Qingshan Zhang, Yiding Zhu Predictive Speed and Current Integrated Controller 87 Fuzzy Sliding Mode Control Algorithm for Zheng Li, Zhijie Wang, Jinfeng P42 (online) Permanent Magnet Synchronous Linear Motor An, Qingshan Zhang Adaptive Super-Twisting Speed Control for PMLSM 90 Honbin Cui, Qingfang Teng, P43 System Using Generalized Proportional Integral (online) Ruiqi Xu Observer
Improved Sensorless Control for Linear Flux Yi Du, Xinyuan Yao, Yi Mao, Li P44 92 Switching Permanent Magnet Motor with Zhang, Feng Xiao, Lei Xu, Unbalanced Inductance XiaoYong Zhu, Li Quan
Fault-Tolerant Control for Five-Leg Two-Mover Zhixiang Lu, Wei Wang, Weijie P45 107 Permanent-Magnet Linear Motor Traction Systems Tian with Open-Circuit Fault
Parameter Identification of Permanent Magnet Hongda Mou, Sudan Huang, P46 125 Synchronous Linear Motors Using Multi-Innovation Guangzhong Cao, Gang Jing, Least Squares Method Yan Liu
Research on Resonant Frequency Tracking Control P47 134 Kaiju Liao, Qizhe Wang, Wei Xu Technology of Linear Oscillation Motor Based on SMO
A Composite Algorithm for Permanent Magnet Xitong Niu, Chuanlin Zhang, 144 P48 Linear Synchronous Motor with Rapidly Varying Yue Qu, Mingdi Li, Tao Wang, (online) Loads: Using Finite-Time Tracking and Observer Xiaoming Wang, Zhiqiang Li
Research on Speed Disturbance Suppression of Permanent Magnet Linear Synchronous Motor Based P49 146 Lei Wang, Jiwen Zhao on Global Fast Terminal Sliding Mode Active Disturbance Rejection Control Research on Sensorless Control for Long-Stator Qi Wang, Ke Wang, Mutian P50 149 Linear Synchronous Motors Applied in Maglev Zhao, Yanxi Zheng, Xueqian Trains Under the Influence of Levitation System Cao, Bo Zhang Electromagnetic Characteristics and Sensorless Xinliang Li, Qianlong Wang, P51 155 Control of The Linear SRM for Rail Transit Zhengfei Wu Application Optimal Parameters Design for Model Predictive Chunxing Yao, Zhenyao Sun, P52 164 Control Using an Artificial Neural Network Shuai Xu, Han Zhang, Guanzhou Optimized by Genetic Algorithm Ren, Guangtong Ma Sensorless Control of Permanent-Magnet Linear 227 Yue Qu, Junwei Lu, Hui Li, P53 Synchronous Motor Based on Modified Linear (online) Xitong Niu Extended State Observer Fixed-Time Dynamic Surface Control for Permanent 233 Zhonghua Wu, Xiaozhuo Xu, P54 Magnet Linear Synchronous Motors with Modified (online) Yunji Zhao, Xinliang Zhang Disturbance Observer
37
Poster Session 3 Poster Area, 15:00~16:00, July 2nd Topics: Control Methods for Linear Drives & Other Related Topics and New Technologies
Session Chair: Liang Guo Professor, Zhejiang Sci-Tech University
Panel Paper ID Paper Title Authors Direct Thrust Force Sensorless Control of PMSLM Hongwei Zhang, Di Jiang, P55 236 Based on Dual Extended Kalman Filter Xinhuan Wang, Mingren Wang Linear Hall Position Calculation Method of PMLSM Shunping Pan, Mingyi Wang, P56 242 Based on Type-III PLL Zhiyin Sun, Liyi Li
Research on Sensorless Control Method of Permanent P57 249 Guanglei Xie, Jun Wu, Jun Li Magnet DC Linear Motor Based on Line Back EMF
Model Predictive Control with Common-Mode Haichuan Niu, Zhixun Ma, P58 257 Voltage Minimization for a Three-level NPC Inverter Yaofei Han, Guozhen Chen, PMLSM Drive System Zhiming Liao, Guobin Lin High Precision Control of Flux Switching Linear P59 274 Kaikai Guo, Youguang Guo Rotary Permanent Magnet Machine for Reelwinder Predictive Thrust Control without Optimal Weighting Lei Tang, Wei Xu, Xiaoguang P60 278 Factor Based on Robust Primary Flux Constraint for Wang, Xinyu Xiao, Yunhong Linear Induction Machine Zhang
Multiple-phase Excitation Control of Linear Switched Daohan Wang, Chen Peng, P61 288 Reluctance Motor with Segmented Secondary Xiaojian Yi, Can Huang, Xiuhe Driving System Wang
Thrust Control of Long Primary Double-sided Linear Mingyuan Zhang, Liming Shi, P62 291 Induction Motor Segmented in Parallel Fed by a Jinhai Liu, Shijiong Zhou, Keyu Single Inverter Guo, Yumei Du
Adaptive Sliding Mode Observer Based on Phase Yulin Wang, Zhiyong Lan, Gang P63 298 Locked Loop in Sensorless Control of Permanent Zhu Magnet Linear Synchronous Motor. Active Disturbance Rejection Control for Permanent P64 303 Hongming Hu, Jingwei Du Magnet Linear Synchronous Motor Improved Anti-Disturbance Sliding-Mode Speed Anyong Wang, Wei Xu, Ganghui P65 305 Control for Tubular Permanent Magnet Linear Qu Synchronous Motor
Vector Control Strategy of Permanent Magnet P66 306 Synchronous Linear Motor Based on Sliding Mode Chao Li, Zhiyong Lan Speed Controller and Model Reference Adaptive
Sensorless Control for Tubular Permanent Magnet 318 Ganghui Qu, Wei Xu, Anyong P67 Linear Synchronous Motor Using MRAS Method (online) Wang with Active Disturbance Rejection Controller
38
Panel Paper ID Paper Title Authors Zheng Li, Feixue Chen, Shuheng 324 Start-up Strategy of Modular Free Piston Linear P68 Qiu, Shide Xiao, Tianyou Pei, (online) Generator Based on State Identification Weiwei Gao, Chi Zhang
Improved Sliding Mode Control of Permanent Huaqiang Zhang, Jiankang Ma, P69 330 Magnet Linear Synchronous Motor Speed Based on Mei Zhao, Yongxiang Xu, Jibin Variable Exponential Reaching Law Zou
MTPA Based Arbitrary Double Vectors Model Yirong Tang, Wei Xu, Dinghao P70 333 Predictive Thrust Control Without Weighting Factor Dong, Xinyu Xiao for Linear Induction Machine 336 Permanent Magnet Synchronous Linear Motor Based P71 Hongming Hu, Haodong Yang (online) on Fractional Order PID Control Direct Thrust Force Control of PMSLM Based on Zhentian Liu, Zhexin Zhuang, P72 341 LQR Optimal and Stator-Resistance Adaptive Zhaolong Sun, Hanning Qian Regulator
Mingsheng Tang, Xuan Li, Jiang Energy Recovery Control for Linear Compressor with P73 349 Wu, Huiming Zou, Cooling Capacity Modulation Xinbin Tang, Changqing Tian
High Precision Multi-Frame Motion Detection for Dongbo Hu, Jiwen Zhao, Xiaohu P74 67 PMSLM’ Mover Based on Extended Upsampling Zhang, Xinyuan Bao, Lei Wang, Normalized Cross-Correlation Lingtong Xie
Xinyuan Bao, Jiwen Zhao, High-Precision Position Measurement for Linear P75 73 Lintong Xie, Dongbo Hu, Xiaohu Motor Mover Based on PCSAC Zhang, Lei Wang Coupling Field Analysis of Transverse Flux Linear P76 79 Zhao Hou, Jinhua Du Switched Reluctance Motor Influence of Excitation Parameters on the Dynamic 108 Min Fu, Cancan Cui, Luyao P77 Characteristics of the Distributed Synchronous (online) Wang, Chunxu Ma Condenser
Wenhan Zhao, Feng Wen, Shuqi 123 Fault Diagnosis of GIS Disconnector Based on BP P78 Wu, Zhoujian Chu, Zhilei Sheng, (online) Neural Network Kesong Ji
Design and Experiment of a Permanent Magnet P79 148 Tubular Linear Generator System Using Mechanical Bo Zhang Vertical Vibration Energy
Transport System with Small Dimensions and 195 Evgeny Sundukov, Veronika P80 Levitation of Modules Moving Relative to Arch-Type (online) Sundukova Trestle Investigation of Coil Pitch Types in FSCW Interior P81 248 Aimeng Wang, Dashuang Li PM Synchronous Machine
39
Poster Session 4 Poster Area, 15:00~16:00, July 2nd Topics: Other Related Topics and New Technologies & Trend and New Development of Linear Drives & Levitation Technologies & Non-Electromagnetic Linear Motors and Actuators
Session Chair: Jikai Si Professor, Zhengzhou University
Panel Paper ID Paper Title Authors Modeling, Analysis and Control of Nonlinear P82 252 Dynamic Model of Steering System of Planetary Yifei Yang, Xiaobin Zhu Magnetic Gear Motor
Calculation of Stator Natural Frequencies of Zezhi Xing, Xiuhe Wang, P83 266 Permanent Magnet Synchronous Motors Considering Wenliang Zhao, Fujie Wang Complex Boundary Conditions
Qiaoling Yang, Haiping Zhang, Optimization of a Cylindrical Linear Generator Based P84 270 Bei Zhang, Shenghui Guo, on Orthogonal Regression Statistical Method Kechun Zhang, Boliang Song
Research on Fault Diagnosis of Actuator in the 283 Biao Yang, Jie Luo, Zhiqiang P85 Suspension System of Maglev Trains Based on (online) Wang Robust Observer
Development of the Method of Suppressing Thrust Zhiyong Lan, Lifang Chen, Bin P86 301 Fluctuation in Permanent Magnet Linear Xie, Qiuhui Zheng Synchronous Motors
Housheng Wang, Jianchao Test on the Series Linear Helical Launcher with P87 55 Wang, Bendong Ma, Zhiming Saddle Secondary Cui, Limeng Wang, Ran Li
Modeling and Analysis of a Flux-Switching 69 Dongshan Fu, Kangyi Wu, P88 Transverse-Flux Permanent Magnet Tube Linear (online) Xiaojie Wu Motor
A Linear-Rotating Axial Flux Permanent Magnet Yang Li, Lei Huang, Minshuo P89 99 Generator for Direct Drive Wave Energy Conversion Chen, Peiwen Tan, Minqiang Hu
Position Sensorless Control of Double-sided Linear Cheng Wen, Xingqiao Zhao, P90 116 Flux Switching Permanent Magnet Machine Kailin Lv, Mingwei Li Detent Force Reduction of Double-Sided Flux- P91 150 Qiang Liu, Lei Zhang Switching Permanent Magnet Linear Machine 151 Design of a Novel Line-start Surface-inserted Song Chi, Jianhu Yan, Jian Guo, P92 (online) Permanent Magnet Linear Synchronous Motor Yuxi Zhang Temperature Field Analysis of Primary Permanent Xiuping Wang, Guangyao Li, P93 212 Magnet Linear Motor with Magnetic Barrier Chunyu Qu Coupling
40
Panel Paper ID Paper Title Authors Two-Degrees-of-Freedom Direct Drive Induction Haichao Feng, Yibo Li, Jikai Si, P94 215 Motor Mover Design Based on Multi-Objective Xiaozhuo Xu, Caixia Gao, Grasshopper Optimization Algorithm Liwang Ai
Comparison Between Linear Induction Motor and Zhimin Sun, Liang Xu, P95 247 Linear Primary Permanent Magnet Vernier Motor for Wenxiang Zhao, Kangkang Du Railway Transportation
Thrust Optimization of Low Speed and Large Thrust Qifan Yang, Rong Cao, Wenbo 279 P96 Linear Motor Based on Double Fractional Slot Hao, Mingyu Xu, Yue Yang, (online) Winding Feng Zhou Characteristic Analysis of U-type Linear Vernier Xiaozhuo Xv, Zhaoyang Fan, P97 289 Permanent-Magnet Motor Liwang Ai Research on Fractional-slot Concentrated Winding Mingjie Wang, Pengxiang Ye, P98 347 Permanent Magnet Linear Synchronous Motor Based Jikai Si, Yongpeng Shen, Shuai on Field-circuit Coupling Method Zhang, Sheng Liu
Speed Control of Linear Flux-Switching Permanent Hongfei Zheng, Lihua Zhou, P99 354 Magnet Machine with Segmented Secondary for Rail Ruiwu Cao Transit
Analysis of Electromagnetic and Damping Mutian Zhao, Qiongxuan Ge, P100 4 Characteristics of Permanent Magnet Electrodynamic Zhan Gao, Yanxi Zheng, Bo Suspension System Zhang, Xueqian Cao Variable Universe Fuzzy Sliding Mode Control Based Chunliang Zhang, Xinzhen Wu, P101 47 on Magnetic Levitation System Jie Xu Analysis of Levitation Force and Induced Current of Shuhao Peng, Yuejin Tang, Li P102 72 Superconducting Electrodynamic Levitation (EDL) Ren, Jing Shi, Jingdong Li, Ying System Xu
Modeling and Electromagnetic Performance Analysis 186 Tao Zhang, Zixin Wang, P103 of a Novel DC Hybrid Magnetic Bearing with (online) Xiaoting Ye Crossed Poles 192 Optimization Design of a Novel Four-Pole Tao Zhang, Zixin Wang, P104 (online) Bearingless Switched Reluctance Motor Xiaoting Ye
Prediction of the Remaining Useful Life for the Power Ping Wang, Biao Yang, Zi Mei, P105 244 Module in the Traction System of Maglev Trains Zhiqiang Long
Study on the Damping Characteristics of Daoyu Hu, Zhihua Zhang, P106 293 Superconducting Electrodynamic Suspension Using a Xinyue Feng Field-Circuit-Motion Coupled Model
Lixun Zhu, Zhaoyang Yao, Shiyi A Novel Single Helix Magnetic Lead Screw for Wave P107 36 Liu, Jiacheng Jiang, Weimin Wu, Energy Converter Chang-seop Koh
Xiang Li, Chaohao Kan, Taian 37 Development of Thermal Network for a High Power P108 Ren, Faxuan Chen, Pengtao Guo, (online) Linear Ultrasonic Motor with V-Shape Stator Zhiyuan Yao
41
Poster Session 5 Poster Area, 16:00~17:00, July 2nd Topics: Electromagnetic Linear Motors and Actuators
Session Chair: Xiaozhuo Xu Associate Professor, Henan Polytechnic University
Panel Paper ID Paper Title Authors
12 Multi-Objective Optimization Design of Permanent P109 Jiawei Chai, Xianguo Gui (online) Magnet Linear Synchronous Motor
18 Influence of Slot and Pole Number Combinations on Zhen Sun, Kota Watanabe, P110 (online) PMLSM with Consequent Pole Xiaozhuo Xu
Eddy Current Damping Suppression of Long Qinwei Sun, Mingyi Wang, P111 30 Primary Linear Synchronous Motor Junchi Li, Kai Kang, Liyi Li
Development of a Double-Side Transverse Flux Jun Luo, Guangtong Ma, Libin P112 38 Linear Motor for Direct Drive Applications Cui, Zhenhua Su
Thrust Performance Improvement of Field- Minshuo Chen, Lei Huang, Modulated Hybrid Excitation Permanent Magnet P113 51 Yang Li, Peiwen Tan, Ghulam Transverse Flux Linear Generator Based on Ahmad, Minqiang Hu Partitioned Staggered Translator
An Improved Transverse Flux Permanent Magnet 70 Dongshan Fu, Xiaojie Wu, P114 Linear Motor of Hybrid Silicon Steel and SMC (online) Yanliang Xu, Hongyu Si Material
Quantitative Analysis of Tubular Dual-Armature Liu Zhang, Lijian Wu, Haoyu P115 75 Switched Flux Permanent Magnet Machines for Zhou, Hui Wen, Qinfen Lu Shock Absorbers
Electromagnetic Analysis of a Tubular Transverse Xiaobao Yang, Yu Zhou, P116 76 Flux Linear Machine with Dual-Consequent-Pole Baoquan Kou, Chengbi Zeng, Configuration Hong Miao
Diagnosis of Current Sensor Faults in Open Winding Weijie Tian, Wei Wang, P117 103 Permanent-Magnet Linear Motor Drive Systems Zhixiang Lu
Design and Analysis of a Double-Stator Linear 104 Rong Guo, Baocheng Guo, P118 Oscillator with Hybrid Lamination for Stirling (online) Xinwei Song Power System
Design and Analysis of a Linear-Rotary Fault- Guangyao Jiang, Huawei Zhou, P119 130 Tolerant Consequent-Pole PM Actuator Weiguo Tao, Guohai Liu
Performances Analysis of a Tubular Permanent Zuoguang Yan, Jikai Si, Rui P120 132 Magnet Linear Generator with 120° Phase Belt Nie, Zhiping Cheng, Lianghui Toroidal Windings Dong, Zhongwen Li
Comparative Analysis of Double-sided Permanent Xiaobao Chai, Jikai Si, Rui Nie, P121 135 Magnet Linear Machines with 120° Phase Belt Yaoqiang Wang, Ge Qi, Toroidal and Concentrated Windings Lianghui Dong
42
Panel Paper ID Paper Title Authors
158 Design and Simulation of an Air-Cored Permanent P122 Yingquan Liu (online) Magnet Direct-Driven Actuator for Missile
Thrust Characteristic Improvement of Permanent Chunfu Hu, Hesong Cui, 166 P123 Magnet Linear Synchronous Motor Based on Multi- Xiongsong Li, Xiao Liu, (online) Objective Optimization Shoudao Huang
Detent Force Reduction Design for the C-Core Hongbin Zhang, Long Jin, P124 167 Single-Phase Permanent Magnet Linear Oscillation Haitao Yu, Zhike Xu, Xing We, Actuator Jingwen Leng
177 Topology Analysis and Thrust Optimization of Arc Yansong Liu, Xuzhen Huang, P125 (online) Permanent Magnet Linear Synchronous Motor Wei Yu
Performance Analysis of a Novel Double Sided Flux 189 P126 Adjustable Linear Permanent Magnet Eddy Current Zhao Li, Hui Yang, Xiaopei Zhu (online) Brake
Thrust Ripple Suppression of Long Primary Double Qian Zhang, Huijuan Liu, P127 194 Sided Linear Induction Motor with Wedge Tengfei Song, Zhenyang Zhang Secondary
System-Level Optimization Design of Tubular Yichao Zhang, Jin Xu, P128 203 Permanent-Magnet Linear Synchronous Motor for Zhengqing Han, Zhenxing Wu, Electromagnetic Emission Chuibing Huang, Mingke Li
Mingna Ma, Zhengyang Xu, Xu D-q Axis Inductance Calculation for PMLSM P129 205 Zhang, Wei Tao, Yakun Zhang, Considering End Effect and Magnetic Saturation Zhiqiang Wang
Mei Zhao, Zhentao Zhang, Design and Optimization of Tubular Linear Vernier P130 217 Huaqiang Zhang, Yongxiang Generator for Direct Drive Wave Energy Converter Xu, Ji Bin Zou
Analytical Calculation of Magnetic Field in Surface- P131 241 Mounted Permanent-Magnet Linear Machine Daoyuan Song Accounting for Slots
Xiaojian Yi, Changqing Zhu, Design Optimization of Linear Switched Reluctance P132 246 Can Huang, Daohan Wang, Motor with Segmental Mover Xiuhe Wang
Analysis and Optimization of An Ironless Linear P133 254 Lu Zhang, Baoquan Kou Synchronous Motor with Cooling System
Jinyang Xu, Wenliang Zhao, 258 Design and Analysis of a Novel Dual-Stator Tubular P134 Xiaodong Wang, Xiuhe Wang, (online) Linear Machine with Split Teeth Structure Fujie Wang
Operating Principle and Cogging Normal Force Xinduo Liu, Xiaodong Wang, 259 P135 Analysis of a Novel Double-sided Permanent Wenliang Zhao, Xiuhe Wang, (online) Magnet Linear Synchronous Motor Fujie Wang
43
Poster Session 6 Poster Area, 16:00~17:00, July 2nd Topics: Electromagnetic Linear Motors and Actuators & Materials & Applications of Linear Drives and Levitation Technologies
Session Chair: Chuibing Huang Lecturer, Naval University of Engineering
Panel Paper ID Paper Title Authors Design and Optimization of Thrust Characteristics for Shuai Y, Hailin Zou, Deli Liu, P136 271 Transverse Flux Permanent Magnet Linear Motor Mei Zhao Shijiong Zhou, Yaohua Li, Research on Position- Speed Measuring System for P137 273 Liming Shi, Fei Xu, Jinhai Liu, High-Speed Long Primary Linear Induction Motor Keyu Guo
Unified Phase-Domain Model of Dual-three Phase Keyu Guo, Yaohua Li, Liming P138 275 Segmented Powered PMLSM considering different Shi, Shijiong Zhou, Jinhai Liu, Connection Types and Fault Conditions Manyi Fan
Jinhai Liu, Liming Shi, Keyu A Low Current Fluctuation Switching Strategy for P139 276 Guo, Shijiong Zhou, Fei Xu, Long Primary Linear Motors Enze Fan 287 A Comprehensive Review on the End Effects of Ben Hur Boff, Paulo Eckert, P140 (online) Linear Permanent Magnet Machines Yacine Amara Electromagnetic Analysis of a Springless Linear Lili Bai, Wei Xu, Xiang Li, Ion P141 290 Oscillatory Machine Based on Equivalent Magnetic Boldea Circuit Modeling and Analysis of a Novel Stator-Magnet P142 294 Yaping Zhang, Wei Xu, Lili Bai Moving-Iron Linear Oscillatory Motor Optimal Design and Vibration Analysis of Transverse Feihong Yue, Zhaolong Sun, Wei P143 312 Flux Linear Oscillation Motor Xu, Xiaobao Yang, Xiang Li Liangjian Ouyang, Miao Yang, Design of a Pneumatic-Electric Hybrid Linear P144 319 Xiaolu Huang, Shuheng Qiu, Chi Driving Device for Robot Polishing Zhang, Kai Feng
Detent Force and Thrust Ripple Reduction of Dual- P145 325 Side Toroidal-Winding Linear Permanent Magnet Leilei Wu, Zhiguang Tian Vernier Machine by Unequal End-Teeth Width
Design and Analysis of a Primary Permanent Magnet Mei Zhao, Sicheng Zuo , P146 331 Transverse Flux Linear Generator for Direct Drive Huaqiang Zhang, Yongxiang Xu, Wave Energy Converters Jibin Zhou A Novel Structure for Minimization of Thrust Ripple P147 357 Bin Yu on Voice Coil Motor Used in Ventilators Chen Deng, Liang Zhou, Ming 106 Modeling and Force Fluctuation Analysis of Open P148 Yan, Jinyang Han, Ying Zhong, (online) Winding PMLSM Driven by Dual-terminal Weichao Li
44
Panel Paper ID Paper Title Authors Performance Analysis of Double-Sided Permanent Mingna Ma, Wei Tao, Xu Zhang, P149 206 Magnet Linear Synchronous Motor with Yakun Zhang, Zhengyang Xu, Demagnetization faults Zhiqiang Wang
Iron Loss Modeling and Analysis of Grain Oriented Xiaojun Zhao, Rui Wang, P150 219 Silicon Steel Sheet under Multi-harmonic Hybrid Zhenbin Du, Lanrong Liu, Magnetization Lin Li, Dongwei Yuan
A New Method to Predict Hysteresis and Loss Xiaojun Zhao, Kang Huang, P151 221 Characteristics of Grain Oriented Silicon Steel Sheet Zhenbin Du, Lanrong Liu, under AC-DC Hybrid Excitation Dongwei Yuan, Lei Zhou
Improved Duty-Cycle Model Predictive Current P152 25 Teng Li, Xiaodong Sun Control of Linear Motor for Active Suspension
Modelling and Analysis of Two-Phase Winding Tuanshan Zhang, Xin Du, P153 91 Segmented Permanent Magnet Linear Synchronous Xuesong Mei Motor
Complete Modeling and Analysis of High-speed Rail P154 93 Jiling Guo, Li Liu, Ke Lu Transit Linear Synchronous Motor Traction System
Research on Electromagnetic Characteristics of 126 Junci Cao, Ruini Li, Yu Wang, P155 Linear Synchronous Motor for High-Speed Maglev (online) Xiaoqing Deng Train Based on Field-Circuit Coupling
Analysis of Electromagnetic Characteristics of Yanxi Zheng, Qiongxuan Ge, Bo P156 140 Traction System and Suspension System of Low- Zhang, Mutian Zhao, Xueqian Temperature Superconducting Maglev Train Cao, Qi Wang
Design on Double-sided Linear Induction Motor with P157 191 Xijun Liu Varying Pole Pitch Characteristic Analysis and Optimization of U-Type Haichao Feng, Chi Xiao, Xiaozhuo P158 210 Permanent Magnet Flux-Switching Linear Motor Xu, Sheng Zhang, Wei Zhang Topology Optimization with Hybrid Algorithm in Xiaozhuo Xu, Han Du, Haichao P159 214 End Teeth of PMLSM Feng, Yan Gao
Jianhao Kang, Xiaozhuo Xu, Characteristics Analysis of U-type Permanent Magnet P160 237 Haichao Feng, Liwang Ai, Salient Pole Linear Motor Xinliang Zhang
Based on Feedback Thrust Compensation Algorithm Chen Chen, Hailin Hu, Jie Yang, P161 260 Constant Slip Vector Control Zhiqiang Long, Fu Feng
313 Novel Linear Generator Concepts and Topologies for P162 Zhiwei Zhang, Wei Xu (online) Wave Energy Conversion Systems: A Review
Design and Comparison of Linear Induction Motor 337 Ma Wenhao, Zhang Yongkang, P163 and Superconducting Linear Synchronous Motor for (online) Xi Long Electromagnetic Launch
Valentina Consolo, Antonino 352 Use of a Tubular Linear Induction Motor in a HVDC P164 Musolino, Rocco Rizzo, Luca (online) Breaker Sani, Claudia Simonelli
45
Appendices
❖ Requirement for Oral and Poster Presentation
Oral Presentation
✓ Each paper is allowed 20 minutes for presentation including questions and answers.
✓ Each presenter should prepare a brief bio. (4 lines maximum) that will be used by the session chair to introduce the presenter.
✓ Each speaker is required to meet his/her Session Chair in the corresponding session room 10 minutes before the session starts. A copy of the PPT file should be loaded to the computer in advance by the speaker.
✓ Each session room is equipped with a projector and a computer. Please make sure that your files are compatible and readable with the computer operation system by using the commonly used fonts and symbols.
✓ If the authors did not present their papers in their assigned sessions, the presentation will be considered as "NO SHOW" and the corresponding paper will be removed from the conference proceedings and not published in IEEE Xplore Digital Library.
Poster Presentation
✓ The useable space on each paper board for the poster sessions is approximately for 90cm wide and 120cm high (90cm*120cm). The poster template could be downloaded at conference website under the item of presentation guidelines.
✓ Each poster should be prepared, brought to the conference, and presented by one of the authors or their representatives.
✓ The poster must be displayed for at least one hour, and then the poster presenter must stay next to the poster in the entire poster session.
✓ Each poster must be posted in the assigned Panel #. If the authors did not post their papers in their assigned Panel, the poster will be considered as "NO SHOW" and the corresponding paper will be removed from the conference proceedings and not published in IEEE Xplore Digital Library.
46
❖ Conference Site Distribution
The 13th International Symposium on Linear Drives for Industry Application (LDIA 2021)
47
❖ Conference Guide
(1) COVID-19 Prevention Guidance
➢ Personnel from low-risk areas in China come to Wuhan: pass by the green code of health code and travel code (subject to the latest epidemic prevention and control requirements of each place). Representatives from low- risk areas in China with a history of living in high-risk areas or contacting with relevant personnel within 14 days are invited to attend the meeting online.
➢ Personnel from medium and high-risk areas in China and overseas come to Wuhan: implement centralized isolation medical observation until they leave the place for 14 days. During this period, two nucleic acid tests of new coronavirus and one antibody test are conducted free of charge. Those who have left the above-mentioned areas for 14 days will be included in the community health management, and will be given one nucleic acid test and one antibody test free of charge (subject to the latest epidemic prevention and control requirements).
➢ Please protect yourself during the journey, wear masks during the whole journey and cooperate with temperature detection consciously. When leaving the airport or railway station, please consciously cooperate with the code scanning to obtain the health code, so as not to affect your normal travel (specific to the latest epidemic prevention and control requirements of each place).
➢ During the meeting, wear masks, do a good job in hand disinfection and temperature measurement. If you have fever, dry cough, shortness of breath and other related symptoms, be sure to report in time and see a doctor as required.
(2) Weather Forecast
Date Weather Temperature Humidity Wind (km/h)
June 30th Wednesday Showers 25~32℃ 70% 11 SE
July 1st Thursday Mainly Sunny 26~32℃ 20% 12 E
July 2nd Friday Showers 25~31℃ 80% 13 SE
July 3rd Saturday A Few Showers 25~31℃ 80% 13 SE
(3) Dining Arrangements
Lunch Dinner Date Time Dining Hall Time Dining Hall
June 30th -- -- 17:30-19:00 Oriole Hall
July 1st 12:00-13:30 The Yangtze River Hall 18:00-20:00 The Yangtze River Hall
July 2nd 12:00-14:00 Oriole Hall 17:30-19:00 Oriole Hall
July 3rd 12:00-14:00 Oriole Hall -- --
Note: The time zone is Chinese standard time (UTC/GMT+08:00).
48
(4) Transportation Line to East Lake International Conference Center
➢ From Tianhe Airport Subway Line 8 via Line 2 at "Hongtu Avenue" (1h 13min);
➢ From Wuhan Railway Station Subway Line 8 via Line 4 at "Yuejiazui" (43min);
➢ From Wuchang Railway Station Subway Line 8 via Line 4 at "Yuejiazui"(42min);
➢ From Hankou Railway Station Bus no. 411 (1h 45min); Subway Line 8 via Line 2 at "Jiedaokou" (1h 6min);
➢ From HUST Bus no. 709/810 (1h 20min); Subway Line 8 via Line 2 at “Jiedaokou” (50min).
Public transport: Bus 411/709/810, stop at "Donghu Road Provincial Museum (front station)"; Subway Line 8, stop at "Hubei Museum".
You can also take taxi from those airport/railway stations to East Lake International Conference Center, which takes about 94 (from Tianhe Airport), 26 (from Wuhan Railway Station), 20 (from Wuchang Railway Station), 54 (from Hankou Railway Station), 28 (from HUST) RMB Yuan.
49
Introduction to SEEE of HUST
Huazhong University of Science and Technology (HUST) is a national key university and directly belongs to the Ministry of Education. It is one of the first universities included in the national "Project 211" key construction and national "Project 985" construction. It is among the first batch of national "Double First-Class" universities in 2017. The school covers more than 7,000 acres and is located on the bank of East Lake in the core area of China's Optics Valley. With beautiful campus environment and large amount of green trees, the university has a greening rate of 72% and is known as a "forest-style university". The adjacent ‘East Lake Green Road’ has created a world-class leisure and fitness ‘backyard garden’ for teachers and students.
The School of Electrical and Electronic Engineering (SEEE) of HUST was founded in 1952. In all previous first- level discipline evaluation by the Ministry of Education, the rank of electrical engineering discipline of this school is always among the top three in China. In 2017, it was selected as one of the first batch of “double first-class” construction disciplines by the country.
The school has strong faculty and has formed a high-level academic team with clear research directions and balanced research forces in all research areas. There are 108 professors and 70 associate professors, including 1 academician of the Chinese Academy of Sciences, 2 academicians of the Chinese Academy of Engineering, 2 national-level teaching teams, 2 innovation teams of the Ministry of Education, and 1 innovation team in the key areas of the Ministry of Science and Technology.
The school has established Department of Electrical and Control Engineering, Department of Electrical Power Engineering, Department of High Voltage Engineering, Department of Applied Electronic Engineering, Department of Electrician Theory and Advanced Electromagnetic Technology, Institute of Fusion and Plasma, Institute of Applied Electromagnetic Engineering, National Electrical and Electronic Experimental Teaching Demonstration Center (Electrical), and National Electrical Electronic Engineering Basic Course Teaching Base (Electrical).
The main research directions of the school cover the entire process of production, transmission, application, transformation, detection, control, dispatching and management of electric energy. Moreover, it has also developed numbers of new frontier disciplines, such as electrical energy storage, pulse power, pulsed magnetic fields, magnetic confinement fusion, plasma medicine, accelerators and their applications, advanced electr ical materials and devices, which have formed the widest range of electrical engineering disciplines in domestic research.
The college has the most complete scientific research and innovation platform in the domestic electrical disciplines. It has a national major science and technology infrastructure, a national key laboratory, a joint laboratory for international cooperation. Among them, the Pulsed High Magnetic Field Facility (PHMFF) is the only national major science and technology infrastructure in China's electrical engineering disciplines, and it has become one of the best pulsed magnetic field facilities in the world; the Joint Laboratory for International Cooperation in Fusion and Electromagnetic Technology owns the only large and medium-sized Tokamak J-TEXT among domestic universities, which is a training and basic research base for magnetic confinement fusion talents recognized by the Ministry of Education. Moreover, it has the only national new-type motor national specialized laboratory, and several provincial and ministerial key laboratories and engineering research centers with research areas of electric power safety, new- type motors, pulse power, and ship power, etc.
The school put the quality of talent training first. The school is one of the first batch authorized units of master's programs, doctoral programs, post-doctoral mobile stations, and first-level discipline doctoral programs in China. There are more than 1,700 undergraduate students and more than 1,000 graduate students. The quality of talent
50
training has been highly recognized by the society. Every year, there are over one million social scholarships set up by companies, and hundreds of special job fair for graduates.
The school has undertaken a number of important national research tasks with more than 300 million RMB research funding each year in recent five years, it has been authorized more than 350 national invention patents, 6 European and US patents, published more than 1300 SCI papers, and 36 ESI hot papers. It has also obtained 2 first prize and 6 second prizes of the National Science and Technology Progress Award.
The academic exchanges of school are active. Multi teachers serve in significant science and technology consulting qualification committee such as the National Major Science and Technology Infrastructure Planning Committee, the National Major Special Expert Committee, and the International Strong Magnetic Field Association. The school has established long-term and deep cooperative relations with more than 20 scientific research institutions including Princeton University, National High Magnetic Field Laboratory (USA), the Max Planck institute for plasma physics (Germany), the controlled fusion institute of French Atomic Energy Commission, and was invited to participate in the ITPA international joint experiment. The school has jointly undertaken seven Sino-U.S. fusion cooperation projects jointly organized by the Chinese Ministry of Science and Technology and the U.S. Department of Energy.
All teachers and students of the school aim to build a world-class electrical engineering discipline. With the development of high-tech electrical engineering and electric power technology as the leading factor, they condense the directions of the discipline, gather research teams, build academic bases, alcoholize the academic atmosphere, unite and be pragmatic, seek truth and innovation to create a better future for electrical engineering disciplines.
51
52
53
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
54
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
55
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
56
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
57
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
58
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
------
59
60