阳辉

副教授(破格),博士生导师

东南大学至善青年学者(首批)

研究方向:  新能源发电及并网控制

电动汽车电驱系统

机器人伺服系统

Email: huiyang@seu.edu.cn



教育背景:

2007.09~2011.06  学士,大连理工大学,电气工程及其自动化
2011.09~2016.12

博士,东南大学,电气工程

导师:林鹤云教授(IEEE Senior Member, IET Fellow

2014.10~2015.10

国家留学基金委(CSC)公派联合培养博士,英国谢菲尔德大学

导师:Z.Q. Zhu 院士(英国皇家工程院院士,IEEE/IET Fellow

个人简介

   东南大学/英国谢菲尔德大学联合培养博士,副教授(破格),博士生导师,入选东南大学首批“至善青年学者”、江苏省科协“青年科技人才托举工程”,江苏省“双创计划”、“香江学者”计划,东南大学电气工程学院院长助理。一直从事新型永磁电机及其控制系统方面的研究工作,应用领域包括:新能源汽车、风力发电、机器人伺服等应用场合。在永磁电机的新型拓扑结构、动态建模和设计优化理论、驱动调磁协同控制等方面取得了突出成绩。近5年来,主持国家自然科学基金面上/青年项目2项,重点项目子课题1项,主持参与江苏省自然科学基金青年项目等省部级项目共7项,获省部级科技奖励1次,在国内外重要学术刊物上发表SCI检索论文80余篇,其中第一作者SCI论文33篇(JCR一区论文13篇,IEEE期刊论文27篇),通讯作者SCI论文25篇,12篇获选表现不俗论文(第一作者),论文总被引>1100次(Google Scholar)。授权国家发明专利25件,PCT专利6件,美国发明专利2件。获2019年河南省科技进步二等奖(排四)、2018年东南大学优秀博士论文奖。

        担任国际顶级期刊 IEEE Transactions on Industrial Electronics、World Electric Vehicle Journal 编委,IEEE工业电子/工业应用学会(IES/IAS)电机专委会委员,中国电工技术学会理事会青年工作委员会委员,曾担任IEEE IEMDC、Intermag等多个国际会议分会主席、技术程序委员会委员以及特邀报告嘉宾。

科研项目:

2021.01-2024.12国家自然科学基金(面上项目),52077033,负责人
新型混合磁极型变磁通记忆电机及其高效控制技术研究
2021.01-2025.12国家自然科学基金(重点项目),52037002,子课题负责人
面向电动汽车全域高效记忆电机系统基础科学问题与关键技术研究
2018.01-2020.12国家自然科学基金(青年项目),51707036,负责人
新型定子聚磁式永磁记忆电机研究
2017.07-2020.07江苏省自然科学基金(青年项目),BK20170674,负责人
新型磁通反向型记忆电机研究
2017.04-2019.04东南大学高水平论文基金,3216007453,负责人

新型定子交替极记忆电机研究
2019.01-2020.12江苏省博士后科研资助计划(A类),1116000266,负责人

电动汽车用新型双层永磁记忆电机的基础研究


主要论著:

    1) 第一作者发表期刊论文(SCI期刊33篇,JCR一区14篇):

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

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

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

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

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

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

[7]  Hui Yang, Z. Q. Zhu, Heyun Lin, and Shukang Lyu, “Comparative study of hybrid 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)

[8]  Hui Yang, S. Lyu, Z. Q. Zhu, H. Lin, S. Fang, and Y. Huang, “Novel dual stator machines with biased permanent magnet excitation,” IEEE Trans. Energy Convers., vol. 33, no. 4, pp. 2070-2080, Dec. 2018. (SCI检索)

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

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

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

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

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

[14]Hui Yang, Hao Zheng, Z. Q. Zhu, Heyun Lin, Shukang Lyu, and Zhenbao Pan, “Comparative study of partitioned stator memory machines with series and parallel hybrid PM configuration,” IEEE Trans. Magn., vol. 55, no. 7, Art. No. 8106708, Jul. 2019. (SCI检索)

[15]Hui Yang, L. Qin, Heyun Lin, et al, “Investigation of torque characteristics of switched flux hybrid magnet memory machine by a coupled solution,” IEEE Trans. Magn., vol. 56, no. 4, Art. No. 7515205, Apr. 2020. (SCI检索)

[16]Hui Yang, Xiaomin Chen, Heyun Lin, Z. Q. Zhu, and Shukang Lyu, “On-load demagnetization effect of high-coercive-force PMs in switched flux hybrid magnet memory machine”, AIP Advances, vol. 9, no. 12, Article No. 125152, 2019. (SCI检索)

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

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

[19]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)

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

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

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

[23]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)

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

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

[26]Hui Yang, Heyun Lin, Erxing Zhuang, Shuhua Fang, Yunkai Huang, “Investigation of design methodology for 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)

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

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

[29]Hui Yang, Heyun Lin, Z. Q. Zhu, Kaikai Guo, Dong Wang, Shuhua Fang, Yunkai Huang, “Flux-concentrated external-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)

[30]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)

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

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

[33]Hui Yang, Heyun Lin, Shuhua Fang, Z. Q. Zhu, and Yunkai Huang, “Flux-regulatable characteristics analysis 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)

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

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


   2) 通讯作者期刊论文(SCI期刊12篇):

[1]   W. Liu, H. Yang, H. Lin and S. Lyu, “Loss-reduction-oriented optimization methodology of hybrid-magnetic-circuit variable flux memory machine for global efficiency improvement,” IEEE Journ. Emerg. Sel. Topics Power Electron., accepted, 2021. (SCI检索)

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

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

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

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

[6]   Y. Li, H. Yang, and H. Lin, “Comparative study of torque production mechanisms in stator and rotor consequent-pole permanent magnet machines”, IEEE Trans. Transport. Electrifi., accepted, 2021. (SCI检索)

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

[8]   Y. Li, H. Yang and H. Lin, “Investigation of torque improvement mechanism in emerging switched flux PM machines,” IEEE Journ. Emerg. Sel. Topics Power Electron., accepted, 2020. (SCI检索)

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

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

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

[12] Shukang Lyu, Hui Yang, Heyun Lin, and Yuan Ren, “A magnetization state initialization control scheme for variable flux memory machines without requiring position sensor information,” IEEE Trans. Transp. Electrif., vol. 6, no. 3, pp. 1157-1166, Sept. 2020. (SCI检索)

[13] Shukang Lyu, Hui Yang, and Heyun Lin, “Magnetization state selection method for uncontrolled generator fault prevention on variable flux memory machines,” IEEE Trans. Power Electron., vol. 35, no. 12, pp. 13270-13280, Dec. 2020. (SCI检索)


   3) 授权发明专利:

    [1]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:202129.

   [2]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:202124.

   [3]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:202123.

   [4]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:20201231.

   [5]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:ZL201910501922.3,授权公告日:202114.

   [6]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:20201124.

   [7]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:2020911.

   [8]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:2020911.

   [9]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:2020831.

   [10]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:20190426日,公开日期:20190806日,授权公告日:2020825.

   [11]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:20180117日,公开日期:20180717日,授权公告日:2020825.

   [12]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:20180912日,公开日期:2019111,授权公告日:2020424.

   [13]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:20180814日,公开日期:20181225日,授权公告日:2020424.

   [14]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:20170925日,公开日期:20180112日,授权公告日:2020218.

   [15]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:2013425日,授权公告日:2015429.

   [16]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:20121220日,授权公告日:2015415.

   [17]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:20141211日,公开日:20150429日,授权公告日:20170222.

   [18]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:20141211日,公开日:20150325日,授权公告日:20170609.

   [19]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:20140530日,公开日:20140806日,授权公告日:20160608.

   [20]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:20130930日,授权公告日:20151118.

   [21]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:20130918日,授权公告日:20151118.

   [22]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:20130918日,授权公告日:20151118.

   [23]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:20130918日,授权公告日:20160803.

   [24]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:20121220日,授权公告日:2015128.

   [25]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:20121220日,授权公告日:2015415.


所获荣誉:

获奖时间

奖项名称

颁奖单位

2018.08

香江学者

全国博管办

2020.05

2020年香江学者学术年会最佳论文奖

香江学者协会

2020.06

金智奖教金

东南大学教育基金会

2018.11

东南大学至善青年学者

东南大学

2018.09

东南大学优秀博士论文

东南大学

2017.10

江苏省青年科技人才托举工程

江苏省科协

2019.05

江苏省“双创计划”科技副总

江苏省科技厅

2019.01

江苏省扬中市“江雁人才”计划入选者

江苏省扬中市科技局

2019.11

河南省科技进步二等奖(排名第4

河南省科技厅

2019.03

东南大学授课竞赛三等奖

东南大学

2014.12

博士研究生国家奖学金

中华人民共和国教育部

2014.05

国家留学基金委联合培养博士全额奖学金

(同年10公派赴英国留学一年)

国家留学基金管理委员会

2019.08

ICEMS   2019 Best Paper Awards

2019年国际电机与系统会议最佳论文奖

IEEE, IEEE Industry   Applications Society

2015.04

EVER   2015 Best Paper Awards

2015国际新能源汽车及可再生能源会议最佳论文奖

IEEE, IEEE Industry   Applications Society

2014.10

ICEMS   2014 Best Paper Awards

2014年国际电机与系统会议最佳论文奖

IEEE, IEEE Industry   Applications Society

教学:

电机学

电工技术

模拟电子技术


人才培养:

指导博士生:屠睿(2021)

指导硕士生:陈晓敏(2018,已毕业、王逸贤、黄蕴睿、张佐汀(2020)、

协助指导博士生:吕舒康(2016秋,直博),李亚(2017年秋),秦岭、刘威(2018秋)

协助指导硕士研究生:秦岭(2014,已毕业);王天刚,王伟嘉(2016,已毕业);郑昊,李光旭(2017,已毕业);刘杨阳,付方圆(2018,已毕业

指导本科生SRTP项目组共计9组,国创4组,获国创优秀结题1