第一作者已发表期刊论文：SCI期刊34篇（第一作者）

[1]    Hui Yang, Cheng Qian, Weijia Wang, HeyunLin, Z. Q. Zhu, Shuangxia Niu, Wei Liu, and Shukang Lyu, “A novel asymmetric-magnetic-poleinterior PM machine with magnet-axis-shifting effect,” IEEE Trans. Ind. Appl. Accepted, 2021. (SCI检索, JCR一区)

[2]    Hui Yang, Hao Zheng, Heyun Lin, Z. Q. Zhu, W. N.Fu, Jiaxing Lei, Wei Liu, and Shukang Lyu, “Investigation of hybrid-magnet-circuitvariable flux memory machines with different hybrid magnet configurations,” IEEE Trans. Ind. Appl. vol. 57, no. 1,Jan./Feb. 2021. (SCI检索, JCR一区)

[3]    HuiYang,Ya Li, Heyun Lin, Z. Q. Zhu, and Shukang Lyu, Principle investigation andperformance comparison of consequent-pole switched flux PM machines, IEEE Trans. Transport. Electrif. vol. 7,no. 2, Jun. 2021. (SCI检索)

[4]    HuiYang,Shukang Lyu, Heyun Lin, Z. Q. Zhu, Hao Zheng, and Tiangang Wang, “A novelhybrid-magnetic-circuit variable flux memory machine,” IEEE Trans. Ind. Electron., vol. 67, no. 7, pp. 5258-5268, Jul. 2020.(SCI检索)

[5]     Hui Yang, Z. Q.Zhu, Heyun Lin, Huayang Li, and Shukang Lyu, “Analysis of consequent-pole fluxreversal permanent magnet machine with biased flux modulation theory,” IEEE Trans. Ind. Electron., vol. 67, no.1, pp. 101-114, Mar. 2020. (SCI检索)

[6]    HuiYang,Heyun Lin, Z. Q. Zhu, Shukang Lyu, and Yangyang Liu, “Design and analysis ofnovel asymmetric-stator-pole flux reversal PM machine,” IEEE Trans. Ind. Electron., vol. 67, no. 3, pp. 2107-2121, Jan. 2020.(SCI检索)

[7]    HuiYang,S. Lyu, Heyun Lin, Z. Q. Zhu, F. Peng, E. Zhuang, S. Fang, and Y. Huang, “Stepwise magnetization control strategy forDC-magnetized memory machine,” IEEETrans. Ind. Electron., vol. 66, no. 6, pp. 4273-4285, Jun. 2019. (SCI检索)

[8]    HuiYang,Z. Q. Zhu, Heyun Lin, and Shukang Lyu, “Comparative study ofhybrid PM memory machines having single- and dual-stator configurations,”IEEE Trans. Ind. Electron., vol. 65, no.11, pp. 9168-9178, Nov. 2018. (SCI检索)

[9]    HuiYang,S. Lyu, Z. Q. Zhu, H. Lin, S. Fang, and Y. Huang, “Novel dual stator machineswith biased permanent magnet excitation,” IEEETrans. Energy Convers., vol. 33, no. 4, pp. 2070-2080, Dec. 2018. (SCI检索)

[10]  Hui Yang, Z. Q. Zhu, Heyun Lin, Shuhua Fang,Yunkai Huang, and Zhike Xu, “Novel dual stator switched flux memory machineswith hybrid magnets,” IEEE Trans. Ind.Appl., vol. 54, no. 3, pp. 2129-2140, May/Jun. 2018. (SCI检索)

[11]  Hui Yang, Z. Q.Zhu, Heyun Lin, Shuhua Fang, and Yunkai Huang, “Synthesis of hybrid magnetmemory machines having separate stators for traction applications,” IEEE Trans. Veh. Tech., vol. 67, no.11, pp. 183-195, Jan. 2018. (SCI检索)

[12]  Hui Yang, Z. Q.Zhu, Heyun Lin, P. L. Xu, H. L. Zhan, Shuhua Fang, and Yunkai Huang, “Designsynthesis of switched flux hybrid-permanent magnet memory machines,” IEEE Trans. Energy Convers., vol. 32,no. 1, pp. 65-79, Mar. 2017. (SCI检索)

[13]  Hui Yang, Heyun Lin, Z. Q. Zhu, Dong Wang, ShuhuaFang, Yunkai Huang, “A variable-flux hybrid-PM switched-flux memory machine forEV/HEV applications,” IEEE Trans. Ind.Appl., vol. 52, no. 3, pp. 2203-2214, May/Jun. 2016. (SCI检索)

[14]  Hui Yang, Z. Q. Zhu, Heyun Lin, D. Wu, H. Hua,Shuhua Fang, and Yunkai Huang, “Novel high-performance switched flux hybridmagnet memory machines with reduced rare-earth magnets,” IEEE Trans. Ind. Appl., vol. 52, no. 5, pp. 3901-3915, Sep/Oct. 2016.(SCI检索)

[15] HuiYang,Hao Zheng, Z. Q. Zhu, Heyun Lin, Shukang Lyu, and Zhenbao Pan, “Comparativestudy of partitioned stator memory machines with series and parallel hybrid PMconfiguration,” IEEE Trans. Magn.,vol. 55, no. 7, Art. No. 8106708, Jul. 2019. (SCI检索)

[16] HuiYang, L. Qin, Heyun Lin, et al, “Investigationof torque characteristics of switched flux hybrid magnet memory machine by acoupled solution,” IEEE Trans. Magn., vol. 56, no. 4, Art. No. 7515205, Apr. 2020.(SCI检索)

[17] HuiYang,Xiaomin Chen, Heyun Lin, Z. Q. Zhu, and Shukang Lyu, “On-load demagnetizationeffect of high-coercive-force PMs in switched flux hybrid magnet memory machine”,AIP Advances, vol. 9, no. 12, ArticleNo. 125152, 2019. (SCI检索)

[18] HuiYang,Yufei Jie, Xuanjiang Guo, Jinda Li, and Minghui Wang, “Investigation ofmagnetization characteristics of variable flux PM based on a Fourier-fittinghysteresis model”, AIP Advances, vol.9, no. 9, Article No. 095056, 2019. (SCI检索)

[19]  Hui Yang, Rui Tu, Ke Wang, Jiaxing Lei , WenjiaWang, Shuang Feng and Chaofan Wei, “A Hybrid Predictive Control for a CurrentSource Converter in an Aircraft DC Microgrid,” Energies., vol. 12, no. 21, Art. No. 4025, Oct. 2019. (SCI检索)

[20]  Hui Yang, H. Lin, Z. Q.Zhu, S. Lyu, and K. Wang, “A novel dual-sided PM variable flux memory machine,”IEEE Trans. Magn., vol. 54, no. 11,pp. 1-5, Nov. 2018. (SCI检索)

[21]  Hui Yang, Z. Q. Zhu, Heyun Lin, and W. Q. Chu, “Flux adjustablepermanent magnet machines: a technology status review,” ChineseJournal of Electrical Engineering, vol. 2, no. 2, pp.14-30, Dec. 2016.

[22]  Hui Yang, Heyun Lin, and Z. Q. Zhu, “Recent advances in variableflux memory machines for traction applications: a review,” CES Transactions on Electrical Machines and Systems, vol. 2, no. 1,pp. 34-50, Mar. 2018.

[23]  Hui Yang, Heyun Lin, YiboLi, Haitao Wang, Shuhua Fang and Yunkai Huang, “Analytical modeling of switchedflux memory machine,” IEEE Trans. Magn.,vol. 54, no. 3, pp. 1-5, Mar. 2018. (SCI检索)

[24]  Hui Yang, Shukang Lyu, Heyun Lin, and Z. Q. Zhu, “A variable-mode stator consequent pole memory machine,” AIP Advances, vol. 8, no. 5, Article No.056612, 2018. (SCI检索)

[25]  Hui Yang, Heyun Lin, Z. Q. Zhu, and Shukang Lyu, “Influenceof magnet eddy current on magnetization characteristics of variable flux memorymachine,” AIP Advance, vol. 8, no. 5,Article No. 056602, 2018. (SCI检索)

[26]  Hui Yang, Z. Q. Zhu, HeyunLin, Kaikai Guo, Yujing Guo, Shuhua Fang, and Yunkai Huang, “Analysis ofon-load magnetization characteristics in a novel partitioned stator hybridmagnet memory machine,” IEEE Trans. Magn.,vol. 53, no. 6, pp. 1-4, Jun. 2017. (SCI检索)

[27]  Hui Yang, Heyun Lin,Erxing Zhuang, Shuhua Fang, Yunkai Huang, “Investigation of design methodologyfor non-rare-earth variable-flux switched flux memory machines,” IET Elect. Power Appl., vol. 10, no. 8,pp. 744-756, Sep. 2016. (SCI检索)

[28]  Hui Yang, Z. Q. Zhu, HeyunLin, H. L. Zhan, H. Hua, Erxing Zhuang, Shuhua Fang, and Yunkai Huang, “Hybrid-excitedswitched flux hybrid magnet memory machines,” IEEE Trans. Magn., vol. 52, no. 6, pp. 1-15, Jun. 2016. (SCI检索)

[29]  Hui Yang, Z. Q. Zhu, HeyunLin, Yang Zhang, Shuhua Fang, Yunkai Huang, and Ningjun Feng, “Performanceimprovement of partitioned stator switched flux memory machines withtriple-magnet configuration,” IEEE Trans.Magn., vol. 52, no. 7, pp. 1-4, July. 2016. (SCI检索)

[30]  Hui Yang, Heyun Lin, Z. Q.Zhu, Kaikai Guo, Dong Wang, Shuhua Fang, Yunkai Huang, “Flux-concentratedexternal-rotor switched flux memory machines for direct-drive applications,” IEEE Trans. Appl. Supercond., vol. 26,no. 7, pp. 1-6, Oct. 2016. (SCI检索)

[31]  Hui Yang, Heyun Lin, Z. Q.Zhu, Shuhua Fang, Yunkai Huang, “A dual-consequent-pole vernier memory machine,”Energies, vol. 9, no. 3. pp.134, Feb.2016. (SCI检索)

[32]  Hui Yang, Z. Q. Zhu, HeyunLin, Shuhua Fang, and Yunkai Huang, “Comparative study of novel variable-fluxmemory machines having stator permanent magnet topologies,” IEEE Trans. Magn., vol. 51, no. 11, pp.1-4, Nov. 2015. (SCI检索)

[33]  Hui Yang, Heyun Lin, Z. Q.Zhu, Shuhua Fang, and Yunkai Huang, “A winding-switching concept for fluxweakening in consequent magnet pole switched flux memory machine,” IEEE Trans. Magn., vol. 51, no. 11, pp.1-4, Nov. 2015. (SCI检索)

[34]  Hui Yang, Heyun Lin,Shuhua Fang, Z. Q. Zhu, and Yunkai Huang, “Flux-regulatable characteristicsanalysis of a novel switched-flux surface-mounted PM memory machine,” IEEE Trans. Magn., vol. 5, no. 11, pp.1-4, Nov. 2014. (SCI检索)

[35]  Hui Yang, Heyun Lin, Z. Q.Zhu, Shuhua Fang, and Yunkai Huang, “Novel flux-regulatable dual-magnet verniermemory machines for electric vehicle propulsion,” IEEE Trans. Appl. Supercond., vol. 24, no. 5, pp. 1-5, Oct. 2014. (SCI检索)

[36]  Hui Yang, Heyun Lin,Jianning Dong, Jianhu Yan, Yunkai Huang, and Shuhua Fang, “Analysis of a novelswitched-flux memory motor employing a time-divisional magnetization strategy,” IEEE Trans. Magn., vol. 50, no. 2, pp.849-852, Feb. 2014. (SCI检索)

通讯作者期刊论文：SCI期刊13篇

[1]    Y. Li, H. Yang, and H. Lin, W. Liu, and X. Zhao, “Torque generation mechanism andperformance evaluation of a dual-sided PM Machine with stator U-shapedmagnets,” IEEE Trans. Ind. Appl.Accepted, 2021. (SCI检索, JCR一区)

[2]    Yongsheng Ge, Hui Yang, WeijiaWang, Heyun Lin, and Ya Li, “A novel interior permanent magnet machine withmagnet axis shifted effect for electric vehicle applications,” World Electr. Veh. J. vol. 12, no. 4,pp. 189, 2021.

[3]    Wang Y, Yang H, Zheng H,Lin H, Lyu S. “Comparative analysis of parallel hybrid magnet memory machineswith different PM arrangements,” World Electric Vehicle Journal. vol. 12, no. 4,pp. 177, Oct. 2021.

[4]     L. Qin, H. Yang,S. Fang, H. Lin, Z. Pan, and Y. Meng, “Design and investigation of a hybridstator pole memory machine with dc bias magnetization capability,” vol. 31, no.8, Art. No. 5205005, Nov. 2021. (SCI检索)

[5]     Z. Chen, H. Lin, Y. Zhong, S. Lyu, and H. Yang, “A novel current control strategy for magnetizationstate manipulation of variable flux memory machine based on linear active disturbancerejection,” IEEE Trans. Power Electron.,accepted, 2021. (SCI检索, JCR一区)

[6]     X. Zhang, H. Yang,Y. Li, and S. Niu, “Comparative study of novel dual stator machines havingdifferent biased pm configurations,” IEEETrans Magn., accepted, 2021. (SCI检索)

[7]     W. Liu,H. Yang, H. Lin and S. Lyu, “Loss-reduction-orientedoptimization methodology of hybrid-magnetic-circuit variable flux memorymachine for global efficiency improvement,” IEEEJourn. Emerg. Sel. Topics Power Electron., accepted, 2021. (SCI检索, JCR一区)

[8]     W. Liu,H. Yang, H. Lin and L. Qin, “Hybridanalytical modeling of air-gap magnetic field in asymmetric-stator-pole fluxreversal permanent magnet machine considering slotting effect,” IEEE Trans. Ind. Electron., accepted,2021. (SCI检索, JCR一区)

[9]     Y. Li, H. Yang and H. Lin, “Comparativestudy of consequent-pole switched-flux machines with different U-shaped PM structures,”World Electric Vehicle Journal, vol.12, no. 1, pp. 22, Mar. 2021.

[10]  Y. Li, H. Yang, and H. Lin, “A novelstator flux-concentrated hybrid permanent magnet memory machine”, IEEE Trans Magn., vol. 57, no. 2, Art.No. 8102806, Feb. 2021. (SCI检索)

[11]  Y. Li, H. Yang, H. Lin, L. Qin, and S.Lyu, “Investigation of double-side field modulation mechanism inconsequent-pole PM machines with concentrated windings”, IEEE Trans. Energy Convers., accepted, 2020. (SCI检索,JCR一区)

[12]  Y. Li, H. Yang, and H. Lin,“Comparative study of torque production mechanisms in stator and rotorconsequent-pole permanent magnet machines”, IEEETrans. Transport. Electrifi., accepted, 2021. (SCI检索,JCR一区)

[13]  Y. Li, H. Yang and H. Lin, “Comparativestudy of stator consequent-pole permanent magnet machines,” IET Electric Power Appl., accepted,2020. (SCI检索)

[14]  Y. Li, H. Yang and H. Lin,“Investigation of torque improvement mechanism in emerging switched flux PMmachines,” IEEE Journ. Emerg. Sel. TopicsPower Electron., accepted, 2020. (SCI检索, JCR一区)

[15]  Ya Li, Hui Yang, Heyun Lin, ShukangLyu, and Zhenbao Pan, “Comparative study of stator consequent pole permanentmagnet machines with different stator slot configurations,” IEEE Trans. Magn., vol. 55, no. 7, Art.No. 8106308, Jul. 2019. (SCI检索)

[16]  Ya Li, Hui Yang, Heyun Lin, ShuhuaFang, and Weijia Wang, “A novel magnet-axis-shiftedhybrid permanent magnet machine for electric vehicle applications,” Energies., vol. 12, no. 4, Art. No. 641,Feb. 2019. (SCI检索)

[17]  ShukangLyu, Hui Yang, Heyun Lin, Z.Q. Zhu, Hao Zheng, and Zhenbao Pan, “Influence of design parameters on on-loaddemagnetization characteristics of switched flux hybrid magnet memory machine,”IEEE Trans. Magn., vol. 55, no. 7,Art. No. 8106405, Jul. 2019. (SCI检索)

[18]  ShukangLyu, Hui Yang, Heyun Lin, andYuan Ren, “A magnetization state initialization control scheme for variableflux memory machines without requiring position sensor information,” IEEE Trans. Transp. Electrif., vol. 6,no. 3, pp. 1157-1166, Sept. 2020

[19]  ShukangLyu, Hui Yang, and Heyun Lin,“Magnetization state selection method for uncontrolled generator faultprevention on variable flux memory machines,” IEEE Trans. Power Electron., vol. 35, no. 12, pp. 13270-13280, Dec.2020.

发明专利：已授权26项

已授权发明专利

[1]     阳辉，付方圆，林鹤云，雷家兴，一种基于零序调磁的记忆电机调磁控制方法及系统，申请号：ZL 202010090457.1，申请日期：2020年02月13日，公开日：2020年05月19日. 授权公告日：2021年6月25日.

[2]     阳辉, 秦岭, 房淑华, 林鹤云. 一种混合磁极零序调磁记忆电机及其调磁方法, 申请号: CN202010370349.X, 申请日：2020年05月06日，公开日: 2020年08月14日. 授权公告日：2021年4月27日.

[3]    阳辉，刘杨阳，林鹤云，一种具有不对称定子极的混合励磁型磁通反向电机，专利号：ZL201911016371.8，授权公告日：2021年2月9日.

[4]    阳辉，李光旭，林鹤云，吕舒康.有失控发电故障保护的直流调磁记忆电机控制方法及系统，专利号：ZL201911171595.6，授权公告日：2021年2月4日.

[5]    阳辉，李光旭，林鹤云，吕舒康.带有误差补偿的记忆电机定子磁链观测器及方法，ZL201910593542.7，授权公告日：2021年2月3日.

[6]    阳辉，揭宇飞，李锦达，王明晖，郭轩江.基于傅里叶拟合的记忆电机调磁电流预测方法，专利号：ZL201910421799.4，授权公告日：2020年12月31日.

[7]    阳辉，王明晖，揭宇飞，郭轩江，李锦达.一种研究非线性永磁体磁化规律的实验方法，专利号：ZL 201910501922.3，授权公告日：2021年1月4日.

[8]    阳辉，王伟嘉，林鹤云，李亚.非对称混合磁极型永磁电机，专利号：ZL201910500942.9，授权公告日：2020年11月24日.

[9]    阳辉，陈晓敏，林鹤云.一种聚磁式双凸极混合永磁记忆电机，专利号：ZL201910851846.9，授权公告日：2020年9月11日.

[10]  阳辉，林鹤云.一种混联磁路记忆电机，专利号：ZL201814187674.1，授权公告日：2020年9月11日.

[11]  阳辉，李光旭，林鹤云，吕舒康. 一种用于磁链观测的记忆电机绕组复用控制方法及系统，专利号：ZL201910188100.4，授权公告日：2020年8月31日.

[12]  阳辉，李光旭，林鹤云，吕舒康. 基于功能切换的直流调磁型记忆电机无位置控制方法及系统，申请号：CN201910343607.2，专利号：ZL201910343607.2，申请日期：2019年04月26日，公开日期：2019年08月06日，授权公告日：2020年8月25日.

[13]  阳辉，王天刚，林鹤云. 一种交流调磁型记忆电机分段调磁控制方法，申请号：CN201810042557.X，专利号：ZL201810042557.X，申请日期：2018年01月17日，公开日期：2018年07月17日，授权公告日：2020年8月25日.

[14]  阳辉，林鹤云. 一种双层永磁复合磁路记忆电机，申请号：CN201811107064.6，专利号：ZL201811107064.6，申请日期：2018年09月12日，公开日期：2019年1月11，授权公告日：2020年4月24日.

[15]  阳辉，郑昊，林鹤云. 一种局部磁路并联型内置式混合永磁记忆电机，申请号：CN201810919764.9，专利号：ZL201810919764.9，申请日期：2018年08月14日，公开日期：2018年12月25日，授权公告日：2020年4月24日.

[16]  阳辉，林鹤云. 一种双定子聚磁-磁阻混合转子电机，申请号：CN201710872467.9，专利号：ZL201710872467.9，申请日期：2017年09月25日，公开日期：2018年01月12日，授权公告日：2020年2月18日.

[17]  阳辉，林鹤云，颜建虎，房淑华，黄允凯，张洋. 一种磁通切换型内置式永磁记忆电机，申请号：201310149285.0，专利号：ZL201310149285.0，申请日期：2013年4月25日，授权公告日：2015年4月29日.

[18]  阳辉，林鹤云，颜建虎，房淑华，黄允凯，金平，张洋. 一种磁通切换型永磁记忆电机，申请号：201210560231.9，专利号：ZL201210560231.9，申请日期：2012年12月20日，授权公告日：2015年4月15日.

[19]  林鹤云, 阳辉, 房淑华, 黄允凯. 一种混合永磁磁极交替式磁通切换型记忆电机及其绕组切换弱磁控制方法，申请号：CN201410768271.1，专利号：ZL201410768271.1，申请日期：2014年12月11日，公开日：2015年04月29日，授权公告日：2017年02月22日.

[20]  林鹤云, 阳辉, 房淑华, 黄允凯. 一种定子聚磁式混合永磁记忆电机，申请号：CN201410768272.6，专利号：ZL201410768272.6，申请日期：2014年12月11日，公开日：2015年03月25日，授权公告日：2017年06月09日.

[21]  林鹤云，阳辉，房淑华，黄允凯. 一种高功率密度的磁通切换型混合永磁记忆电机，申请号：CN201410241364.9，专利号：ZL201410241364.9，申请日期：2014年05月30日，公开日：2014年08月06日，授权公告日：2016年06月08日.

[22]  林鹤云，阳辉，董剑宁，壮而行，房淑华，黄允凯. 一种轴向磁场定子分割式磁通切换型记忆电机，申请号：201310463648.8.，专利号：ZL201310463648.8，申请日期：2013年09月30日，授权公告日：2015年11月18日.

[23]  林鹤云，阳辉，董剑宁，壮而行，房淑华，黄允凯. 一种轴向磁场磁通切换型表贴式永磁记忆电机，申请号：CN201310432668.9，专利号：ZL201310432668.9，申请日期：2013年09月18日，授权公告日：2015年11月18日.

[24]  林鹤云，阳辉，壮而行，董剑宁，房淑华，黄允凯. 一种容错型定子分割式磁通切换型记忆电机，申请号：CN201310431045.X，专利号：ZL201310431045.X，申请日期：2013年09月18日，授权公告日：2015年11月18日.

[25]  林鹤云，阳辉，壮而行，颜建虎，房淑华，黄允凯. 一种多齿型永磁内嵌式磁通切换型记忆电机，申请号：201310428783.9，专利号：ZL201310428783.9，申请日期：2013年09月18日，授权公告日：2016年08月03日.

[26]  林鹤云，阳辉，金平，房淑华，黄允凯，颜建虎，张洋. 一种聚磁式磁通切换型永磁记忆电机，申请号：201210558628.4，专利号：ZL201210558628.4，申请日期：2012年12月20日，授权公告日：2015年1月28日.

[27]  林鹤云，阳辉，颜建虎，房淑华，黄允凯，金平，张洋. 一种多齿磁通切换型永磁记忆电机，申请号：201210559055.7，专利号：ZL201210559055.7，申请日期：2012年12月20日，授权公告日：2015年4月15日.