师资队伍
当前位置: 首页 > 师资队伍 > 知名学者及青年人才 > 知名学者 > 正文
呼爱国 教授
发布时间:2017-05-15 15:24:58 来源:本站

huyuguo.png

个人简介

Aiguo Patrick Hu(呼爱国)教授新西兰奥克兰大学工学部电气与计算机工程系知名教授。研究领域主要集中在关于创新电力供应的基础上的功率转换和控制技术的发展方面,涉及到基本的调查和实际工程应用包括:(1)高性能谐振转换器,开关模式非线性电路的建模和控制,高频发电,磁耦合,和功率调节;(2)无线/非接触式电源,加上无线通信系统,用于生物医学植入物;(3)电感和电容式功率传输技术的材料处理系统,电动汽车(电动汽车),固态照明,和无线分布式传感器;(4)电力系统的电子控制,电能质量改进;(5)可再生能源连接,分布式电力系统。

联系方式

办公室电话: +64-9-9401019

移动电话: 021-1239889

地址: 368 Khyber Pass Road, Newmarket, Auckland 1023, New Zealand

E-Mail : a.hu@auckland.ac.nz

个人主页:

教育经历

1985年,获得西安交通大学电气工程学士学位

1988年,获得西安交通大学大学电气工程硕士学位

2001年,获得奥克兰大学电气与电子工程学博士学位

讲授课程

电力电子技术、无线电能传输技术

主要研究方向

1.高性能谐振转换器,开关模式非线性电路的建模和控制,高频发电,磁耦合,和功率调节;2.无线/非接触式电源,加上无线通信系统,用于生物医学植入物;3.电感和电容式功率传输技术的材料处理系统,电动汽车(电动汽车),固态照明,和无线分布式传感器;4.电力系统的电子控制,电能质量改进;(5)可再生能源连接,分布式电力系统。

学术兼职和荣誉

2016 Recommended by the Dean of Engineering for attending the Academic Leadership Programme run by Auckland Univ HR.

2015 Elected the Vice Chair of NZCSA (New Zealand Chinese Scientists Association).

2015 Elected IEEE New Zealand North Section Chair.

2014 NZ Business Events Award presented by Hon Steven Joyce for successful bidding of IEEE 10thConference on Industrial Electronics and Applications (ICIEA’15). Served as the general chair of this Conference when finally held in Auckland June 2015.

2011 Certificate of Appreciation by the organising committee of 6th ICIEA (IEEE Industrial Electronics & Applications) for serving as the Track Chair of Power Electronics.

2010 Recommended by HoD and nominated by Dean for attendance of the New Research Leader Program Pilot (by G8 Universities Australia) run by Auckland Univ HR (Oct09 –Aug10).

2009 Certificate of Appreciation issued by The Vice President of IEEE (Technical Activities) for notable services and contribution towards the advancement of IEEE and Engineering professions as the Chair of Jt Power and Energy/Power Electronics Society Chapter of NZ North Section.

2008 Co-author of the outstanding paper award at International conference on biomedical engineering held in Singapore.

2008 Science leader/Principal Investigator of FRS/MSI(Ministry of Science & Innovation) NERF fund granted for research on ‘Powering implantable biomedical devices’, $960,000 for three years, extended for another year making total grant to NZ$1.28m.

2007 Elected to senior member IEEE (Institute of Electrical and Electronic Engineers).

2006 Member of the winning team, Innovation of the year 2006, Telemetry, wireless power supplies for biomedical implants, NZ Incubation Association, Sponsored by Telecom NZ.

2006 Ideal part 4 research project supervisor elected by final year ECE students at the graduation dinner.

2006 Co-author, supervisor of the best student paper award at Australian Universities Power Engineering Conference, AUPEC’06, Melbourne, Australia,10-13 Dec 2006.

2006 Selected for ‘The Stories of Successful Chinese People Overseas', New Zealand Volume, Global Chinese Press, March 2006.

学术成果

获得15项选定独立专利,在国际一流刊物上发表期刊论文76篇,撰写专著章节或百科全书文章共7部,会议发表论文120篇。

近期发表的论文(2013-2016)

1. Huang, L., Hu, A. P., Swain, A., Su, Y., Z Impedance Compensation for Wireless Power Transfer Based on Electric Field Coupling, IEEE Transactions on Power Electronics. Accepted for publication.2016

2. Huang, L., Hu, A. P., Swain, A., Su, Y., Accurate steady-state modeling of capacitive-coupling interface of capacitive power transfer systems with cross-couplingJournal of Wireless power transfer, Journal of Wireless Power Transfer, Cambridge Univ Press, DOI: 10.1017/wpt.2016.2.

3. Abd Kadir, E., Hu, A. P., Biglari-Abhari, M., Aw, K. C., Indoor 2.45 GHz Wi-Fi Energy Harvester with Bridgeless Converter, IEEE Journal on Selected Areas in Communications, Volume:PP, Issue: 99, doi:10.1109/JSAC.2016.2551578.

4. Tian, J. andHu, A. P., Stabilizing the Output Voltage of a Wireless Power Pickup through a Parallel Tuned DC-voltage Controlled Variable Capacitor, IET Electronics Letters, doi: 10.1049/el.2016.0196

5.Su, Y., Zhou,W., Hu, A. P., Tang, C.S., Hua, R., A Shared Channel Design for Power and Signal Transfer of Electric-field Coupled Power Transfer System, Journal of Power Electronics, doi: 10.6113/JPE.2014.14.1.

6. Edwards, B; Aw, K. C; Hu, A. P. Mechanical frequency up-conversion for sub-resonance, low frequency vibration harvesting. Journal of Intelligent Material Systems and Structures. doi:10.1177/1045389X15624795

7. Su, Y; Chen, L; Wang, Z; Hu, A. P; Dai, X. A load identification method for inductive power transfer system based on the least squares algorithm, Transactions of China Electrotechnical Society, 30(5), 9-14.

8. Huang, L; Hu, A. P. Defining the mutual coupling of capacitive power transfer for wireless power transfer. Electronics Letters, 51(22), 1806-1807. doi:10.1049/el.2015.2709

9. Su, Y; Zhou, W; Hu, A; Sun, Y; Chen, L. Power-signal Parallel Transmission Technology for ECPT Systems Based on Duty Cycle Modulation of Square Wave Carrier, Transactions of China Electrotechnical Society, 30(21), 51-56.

10. Su, Y; Xie, S; Hu, A; Tang, C; Zhou, W. Transmission Property Analysis of Electric-field Coupled Wireless Power Transfer System with LCL Resonant Network, Transactions of China Electrotechnical Society, 30(19), 55-60.

11.Raval, P; Kacprzak, D; Hu, A. P. Multiphase Inductive Power Transfer Box Based on a Rotating Magnetic Field. IEEE Transactions on Industrial Electronics, 62(2), 795-802. doi:10.1109/TIE.2014.2334666

12.Bou-Balust, E; Hu, AP; Alarcon, E., Scalability Analysis of SIMO Non-Radiative Resonant Wireless Power Transfer Systems based on Circuit Models', IEEE Transactions on Circuit and Systems I, doi:10.1109/TCSI.2015.2469015

13.Hua, R; Su, Y.G; Hu, A.P. 'Three-stages Magnetic Field Repeater for Extending the Range of Inductive Power Transfer', Transactions of China Electrotechnical Society, 30(supp.1), 133-137.

14.Hu, A.P; You, Y.W; Chen, F; McCormick, D; Budgett, D., 'Wireless Power Supply for ICP Devices with Hybrid Super-capacitor and Battery Storage', Journal of Emerging and Selected Topics in Power Electronics, invited contribution to Special issue for bio-medical applications, doi:10.1109/JESTPE.2015.2489226

15.Leung, H.F; Dai, X; Hu, A.P., 'Electrical Modeling of a Wireless Ultrasonic Power Transfer System', Transaction of China Electrotechnical Society, 30(19), 85-89.

16.Su, Y; Zhang, H; Wang, Z; Hu, A; Chen, L; Sun, Y. 'The Load Identification Method of Inductive Power Transfer System Based on Switching Capacitors', IEEE Transactions on Power Electronics, p1-1, 2015, 10.1109/TPEL.2015.2411755.

17.Abdolkhani, A; Hu, A.P., 'A Contactless Slipring System Based on Axially Traveling Magnetic Field', IEEE Journal of Emerging and Selected Topics in Power Electronics, 3, (1), p280-287, 2015, 10.1109/JESTPE.2014.2323363.

18.Abdolkhani, A; Hu, A.P., 'Improved Coupling Design of Contactless Slipring for Rotary Applications', IEEE Journal of Emerging and Selected Topics in Power Electronics, 3, (1), p288-295, 2015, 10.1109/JESTPE.2014.2336895.

19.Raval, P.; Kacprzak, D; Hu, A.P., 'Analysis of Flux Leakage of a 3-D Inductive Power Transfer System', IEEE Journal of Emerging and Selected Topics in Power Electronics, 3, (1), p205-214, 2015, 10.1109/JESTPE.2014.2310192.

20.Edwards, B; Aw, K. C; Hu, A. P. Multi-parameter Model Validation of an Energy Harvester Frequency Up-conversion Mechanism Under Stochastic Excitation. Procedia Engineering, 87, 763-766. doi:10.1016/j.proeng.2014.11.650

21.Abdolkhani, A., Hu, A. P., & Tian, J. (2014). Autonomous Poly-phase Current-fed Push-pull Resonant Converter Based on Ring coupled Oscillators. IEEE Journal of Emerging and Selected Topics in Power Electronics. 3(2), 568-576. doi:10.1109/JESTPE.2014.2377171

22.Raval, P., Kacprzak, D., & Hu, P. (2014). A Multi-Phase 3D Inductive Power Transfer System Based on a Rotating Magnetic Field. IEEE Transactions on Industrial Electronics, 1. doi:10.1109/TIE.2014.2334666

23.Raval, P., Kacprzak, D., & Hu, A. P. (2014). 3D inductive power transfer power system. Wireless Power Transfer, 1(01), 51-64. doi:10.1017/wpt.2014.7

24.Abdolkhani, A., & Hu, A. P. (2014). Magnetic coupling coefficient determination of IPT systems under operating conditions. Wireless Power Transfer, 1(02), 83-86. doi:10.1017/wpt.2014.10

25.Raval, P., Kacprzak, D., & Hu, A. P. (2014). Computational Finite Element Software Assisted Development of a 3D Inductively Coupled Power Transfer System. Advanced Electromagnetics, 2(3), 11. doi:10.7716/aem.v2i3.176

26.Leung, H. Y., Budgett, D. M., Taberner, A., & Hu, P. (2014). Power loss measurement of implantable wireless power transfer components using a Peltier device balance calorimeter. Measurement Science and Technology, 25(9), 095010. doi:10.1088/0957-0233/25/9/095010

27.Xie, M., Aw, K.C., Edwards, B., Gao, W., & Hu, P. (2014). Orthogonal experimental design of poly dimethylsiloxane curing for the design of low-frequency vibrational energy harvester. Journal of Intelligent Material Systems and Structures, 25(18), 2228-2234. doi:10.1177/1045389X14538536

28.Abdolkhani, A., Hu, A. P., Covic, G. A., & Moridnejad, M. (2014). Through-Hole Contactless Slipring System Based on Rotating Magnetic Field for Rotary Applications. IEEE Transactions on Industry Applications, 50(6), 3644-3655. doi:10.1109/TIA.2014.2312998

29.Hu, A. P., & Abdolkhani, A. (2014). Improved autonomous current-fed push–pull resonant inverter. IET Power Electronics, 7(8), 2103-2110. doi:10.1049/iet-pel.2013.0749

30.Abdolkhani, A., Hu, A. P., & Nair, N.-K. C. (2014). A double stator through-hole type contactless slipring for rotary wireless power transfer applications. IEEE Transactions on Energy Conversion, 29(2), 426-434.

31.Wang, B., Hu, A. P., & Budgett, D. (2014). Maintaining middle zero voltage switching operation of parallel-parallel tuned wireless power transfer system under bifurcation. IET Power Electronics, 7(1), 78-84.

32.Abdolkhani, A., & Hu, A. P. (2013). Face to face through-hole contactless slipring system for rotary applications. IJAREEIE (International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering), 2(9), 4277-4286.

33.Raval, P., Kacprzak, D., & Hu, A. P. (2013). Finite Element Assisted Numerical Comparison of Single and Two Phase Inductively Coupled Power Transfer Systems. Vol 5, No 7, 2013 Journal of Electromagnetic Analysis and Applications.

34.Tang, C.-S., Sun, Y., Dai, X., Wang, Z.-H., Su, Y.-G., & Hu, A.-G. (2013). Transition control of bifurcated frequencies in inductive power transfer systems through time delay perturbation. Wuli Xuebao/Acta Physica Sinica, 62(15).

35.Leung, H. Y., McCormick, D., Budgett, D. M., & Hu, A. P. (2013). Pulse density modulated control patterns for inductively powered implantable devices based on energy injection control. IET Power Electronics, 6(6), 1051-1057.

36.Tang, C., Sun, Y., Dai, X., Su, Y., Nguang, S. K., & Hu, A. P. (2013). Shifting stable operating points of bifurcated IPT systems by time delay perturbation. Electronics Letters, 49(9), 615-617.

37.Liu, C., Hu, A. P., Wang, B., & Nair, N.-K. C. (2013). A capacitively coupled contactless matrix charging platform with soft switched transformer control. IEEE Transactions on Industrial Electronics, 60(1), 249-260. doi:10.1109/TIE.2011.2172174

38.Clark, T. M., Millar, H., Lim, M., McCormick, D., Russell, D., Guild, S.-J., Hu, P., Budgett, D. (2013). High performance temperature and pressure telemetry for rodents. FASEB JOURNAL, 27, 1 page.

上一篇:任伟 教授 下一篇:没有了
(C) Copyright Chongqing University All Rights Reserved.
重庆大学 版权所有2012 地址:重庆市沙坪坝区沙正街174号主教楼19楼 电话:023-65112173
(渝ICP备05005762号)