团队介绍

人工智能与微纳传感团队现有教授1名，副教授6名，讲师2名，研究生15名，本科生若干。团队积极响应国家与大湾区战略导向，瞄准人工智能与微纳传感技术在多领域的关键应用及未来发展方向，主要从事人工智能与机器人、微纳传感器及微纳器件、微电子控制系统等方向研究，致力于通过产学研深度融合，打破技术壁垒，攻克关键核心技术难题。

团队先后承担国家自然科学基金面上项目、国家自然科学基金青年项目、广东省基础与应用基础研究基金区域联合基金重点项目、广东省重大科技专项项目、广东省自然科学基金面上项目、广东省基础与应用基础研究基金青年项目、中国博士后科学基金面上项目、重大横向项目等。

团队曾获得广东省科技进步一等奖、广东省科技进步二等奖（2项）、吴文俊人工智能科学技术奖三等奖、东莞市科技进步奖三等奖（3项）等荣誉。团队指导学生参加中国机器人大赛、全国大学生集成电路创新创业大赛、全国大学生嵌入式芯片与系统设计竞赛、蓝桥杯全国软件和信息技术人才大赛等获国家级奖励若干。

团队负责人

任斌，二级教授，研究生导师，以第一完成人身份获得广东省科技进步奖（一等奖1项，二等奖1项）。广东省教学名师，广东省高等学校“千百十人才培养工程”省级培养对象，长期从事集成电路系统集成及应用、机器学习及智能控制方面的研究。主持了国家自然科学基金面上项目 1 项、广东省自然科学基金重点项目 1 项、广东省自然科学基金面上项目 2 项、广东省重大科技专项 1 项、省产学研协同创新成果转化项目 2 项、广东省普通高校特色创新类项目 1 项；以校方负责人承担完成省级科技计划 13 项，市级科技计划 3 项。发表学术论文 50 余篇，其中 SCI、EI 收录 20 余篇。以第一完成人身份获得吴文俊人工智能科技进步奖三等奖 1 项，授权发明专利 5 件，实用新型专利 8 件，软件著作权 3 项。近三年以第一/通讯作者发表发表论文 4 篇，承担纵向项目到账经费 167 万元。

邮箱：[email protected]

团队核心成员

张光旻，博士，现为av在线 副院长、副教授。主要从事传感器设计和应用、监测系统的研究。主持和参与的项目包括国家自然科学基金，广东省自然科学基金等近10项。以第一作者和共同一作发表学术论文20余篇，其中SCI、EI收录20篇，以主要发明人授权国家发明专利8件。

王禹，博士，特聘副教授，东莞市特色人才（三类）。本科（2014年）和研究生（2016年）毕业于暨南大学，2021年毕业于英国曼彻斯特大学，获机械工程专业哲学博士学位(PhD)，2022年入职av在线 ，担任院长助理、电子系副主任、硕士生导师。在《International Journal of Mechanical Sciences》、《Mechanical Systems and Signal Processing》、《European Journal of Mechanics - A/Solids》等国际著名期刊发表研究论文十余篇，H因子6。现主持国家自然科学基金一项和广东省自然科学基金一项，主要从事锂离子电池安全检测、电子元器件中的失效问题等方面研究。曾担任曼彻斯特大学工学院 3D-DIC 实验指导员（现为顾问），《International Journal of Mechanical Sciences》、《Journal of Electrochemical Energy Conversion and Storage》等SCI期刊审稿人。

罗安信，博士，特聘副教授，东莞市特色人才（三类）。1996年2月出生。2017年本科毕业后参加澳门大学，模拟与混合信号超大规模集成电路国家重点实验室（集成电路设计方向亚洲顶尖）-南方科技大学，深港微电子学院联合培养项目，直接攻读博士，仅3年10个月便顺利毕业。2023年入职av在线 ，担任院长助理。罗安信博士的研究方向主要集中在振动能量采集器、自供能传感系统及微纳传感器上。2022年获得南方科技大学“校长卓越博士后”（全校一批仅14人）奖金资助。2022年获得第71批中国博士后科学基金面上资助（资助率低于16%，南方科技大学电子信息方向唯一获选项目）。

刘亚超，博士，特聘副教授，学科骨干。2016年本科毕业于河南工业大学，2021年博士毕业于广东工业大学，2022至2025年在广东工业大学精密电子制造与装备国家重点实验室从事博士后研究。目前研究领域集中在微电子精密制造与封装装备、跨尺度精密定位平台与控制系统研究、自抗扰控制等。

刘彬，博士，特聘副教授，学科骨干。2014年本科毕业于武汉理工大学，2019年博士毕业于华中科技大学，2019至2023年在华中科技大学从事博士后研究。目前研究领域集中在无人艇相关核心技术的研究。

张梅，副教授。毕业于天津大学光学专业，研究方向是生物医学光学和光电子学。主持并完成了东莞市科技计划项目一项，参加广东省自然科学基金项目1项。以第一作者或通讯作者身份发表科研论文25篇，其中SCI检索4篇，EI检索6篇，核心期刊论文5篇。

张宝晖，博士，本科毕业于南开大学微电子学专业（2011年），2015年于贵州大学获得微电子学于与固体电子学工学硕士学位，2020年毕业于华中科技大学，获得微电子学于与固体电子学工学博士学位，2023年入职av在线 。在《Nano-Micro Letters》、《Sensors and actuators B-Chemical》、《Journal of Colloid and Interface Science》、《Sensors and actuators A-Physical》、《IEEE sensors journal》等国际著名期刊发表研究论文十余篇，主要从事低维纳米功能材料、气体/光电传感器件系统、MEMS传感器和SAW器件的制备与应用研究。

彭超，博士。2007年和2009年分别从吉林大学获得学士和硕士学位。2013年加入av在线 ，2016年于厦门大学获得博士学位。目前主要从事人工智能与深度学习、嵌入式系统设计和水声微弱信号检测与识别等研究。近5年共发表16篇论文，其中2篇SCI,8篇EI，共获得授权实用新型专利11项。

主持和参与的项目

1. 基于信息物理系统的智慧城市交通管控技术研究，国家自然科学基金面上项目，2023-2026，主持

2. 国家自然科学基金，基于微观孔隙特征的锂离子电池隔膜动态力学行为及其失效机理研究，主持

3. 国家自然科学基金青年项目，面向白光干涉测量的多轴运动平台自调平隔振机制与抗扰协同控制，2024.01-2026.12，主持

4. 国家自然科学基金青年项目，异构自主无人艇集群协同作业理论及应用研究，2021.01-2023.12，主持

5. 中国博士后科学基金面上资助，自供能车速传感器系统研究，2022.07-2023.07，主持

6. 中国博士后基金面上项目，异构自主无人艇系统编队控制理论及应用研究，2021.01-2022.12，主持

7. 基于人工智能的智慧交通系统应用基础研究，广东省基础与应用基础研究基金区域联合基金重点项目，2020-2023，主持

8. 3C 行业轻载高效智能机器人的设计理论与控制研究，广东省普通高校特色创新类项目，2019-2021，主持

9. 面向 3C 行业智能打磨抛光机器人关键技术研究及产业化，广东省产学研协同创新成果转化项目，2016-2018，主持

10. 基于核学习理论和人工神经网络的城镇空气质量建模及预报预警系统，广东省自然科学基金自由申请项目，2015-2018，主持

11. 广东省 3C 智能机器人与柔性制造企业重点实验室，广东省重点实验室建设项目，2020-2022，校方负责人

12. 新一代高效节能太阳能热泵闭环除湿干燥机关键技术研究及产业化，应用型科技研发专项资金项目，2017-2019，校方负责人

13. 面向 3C 行业低成本六自由度轻载智能机器人研发及集成示范应用，应用型科技研发专项资金项目，2015-2018，校方负责人

14. 新型低成本高效节能 96 孔洗板机的关键技术研发及产业化推广，广东省重大科技专项项目，校方负责人

15. 第三代智慧型空热能热水器关键技术研究和产业化，省部产学研结合项目，2014-2017，校方负责人

16. 高精度伺服系统的迭代学习控制策略研究，广东省自然科学基金自由申请项目，2015-2018，校方负责人

17. 新型通道式安检机的关键技术研究及其产业化，省部产学研结合项目，2012-2015，主持

18. 基于核学习理论的间歇过程实时质量建模与预测控制研究，广东省自然科学基金面上项目，2011-2013，主持

19. 厨房生活垃圾处理器关键技术研究及其产业化，广东省重大科技专项项目，2012-2014，主持

20. 广东省自然科学基金，锂离子电池隔膜的动态力学行为和基于多场耦合的非机械断裂失效机理研究，主持

21. 面向人机协作的交互式机器人在线学习关键技术和方法研究，东莞市社会发展科技重点项目，2021-2024，主持

22. 新一代智能高速精密喷射点胶系统关键技术研究及产业化，东莞市科技特派员项目，2021-2022，主持

23. 新一代智能化通信基站电源多用户管理系统研究，东莞市产学研项目，2015-2016，校方负责人

24. 通信用混合能源供电系统监控系统设计，东莞铭普光磁股份有限公司，横向项目，2019-2021，主持

25. 护理机器人控制系等项目联合开发，广东精茂健康科技股份有限公司，2019-2021，主持

26. 数字音频技术在耳机产品降噪处理中的应用研究，东莞市敏动电子科技有限公司，2019-2020，主持

27. 基于时间反演的混凝土民事结构微波无损探伤机制和算法研究，2015-2017，主持

28. 基于时间反演的新型微波医疗探测技术的研发，2015-2017，主持

29. 球形压电智能材料与混凝土的融合及对结构损伤特征的精确获取方法研究，2020-2023，主持

30. 企业课题，新型储能系统相关技术研发，主持

31. 校级课题，基于数据驱动的锂离子电池检测技术，主持

32. 空气介质恒温槽双路控制技术设计，广州赛宝计量检测中心服务有限公司，横向项目，2015-2016，主持

获得荣誉

1. 智能移动终端闪充锂离子电池关键技术及产业化，2024 年度广东省科学技术进步奖一等奖，广东省人民政府，2025.03，排名 1

2. 全自动高速 PCB 封装点胶机关键技术研发及产业化，2020 年度广东省科学技术奖科技进步二等奖，广东省人民政府，2021.03，排名 1

3. 视觉健康智慧护眼技术及其在电子产品中的应用，2022 年度广东省科学技术奖科技进步二等奖，广东省人民政府，2023.05，第一单位负责人

4. 新型通道式安检机的关键技术研究及其产业化，第五届吴文俊人工智能科学技术奖三等奖，吴文俊人工智能协会，2015.11，排名 1

5. 产学研合作创新奖（个人），中国产学研合作促进会，2021.12

6. 高耐压智能稳压节电器，东莞市科技进步奖三等奖，东莞市人民政府，2013.11，排名 1

7. 硬盘读写头弹性臂自动检测分拣机，东莞市科技进步奖三等奖，东莞市人民政府，2017.03，排名 2

8. 低频无极植物生长灯，东莞市科技进步奖三等奖，东莞市人民政府，2015. 03，排名 3

9. 东莞市优秀科技论文一等奖，东莞科学技术协会，2010.12，排名 1

10. 东莞市电子学会优秀论文奖，东莞市电子学会，2019.01，排名 1

代表论文列表

1. Shiliang Luo, Bin Ren*, The monitoring and managing application of cloudcomputing based oninternet ofthings, Computer methods and programs in biomedicine2016,130:154–161(SCI:WOS:000376507300016，IDS: DM7BI)

2. Bin REN , Ruican XIA, Tianhua HUANG，Design of goal keeper’s strategy based on microsoft 5vs5 soccer simulation，International Journal ofSimulationSystems, Science & Technology，2016，17(44)：8.1-8.7（EI：20165103138829）

3. Bin REN , Tianhua HUANG, Ruican XIA，A new robot design for martial arts arena simulation，International Journal ofSimulationSystems, Science & Technology，2016，17(47)：3.1-3.6（EI：20170403268255）

4. Bin REN,Lei yang ,Design of General-purpose Industrial signal acquisitionsystem in a large scientific device,Earth and Environmental Science,2018,113:012066(EI:20181104891974)

5. Chunhong He, Bin Ren*，Design of two wheel self balancing car,Earth and Environmental Science,2018,113:012066(EI:20181104891982)

6. Xiangzhen Zeng, Bin Ren*，Experimental industrial signal acquisition board in a large scientific device,Earth and Environmental Science,2018,113:012067(EI:20181104891975)

7. Bin REN,Design of Control System for Multi-joint Robot Based on STM32，Earth and Environmental Science (2020)，585：012132：1-6.（EI：20204809531234）

8. Huiyuan, Cao ; Bin, Ren*; Renhao.Yang.Design of Rolling Ball Control System Based on PID Algorithm.Journal of Physics: Conference Series,1449 (2020)012091:1-6.（EI：20200908225579）

9. Huiyuan, Cao ; Bin, Ren*; Renhao.Yang.Research on Visualization of Hardware P2P Network Communication Based on STM32.Journal of Physics: Conference Series,1449 (2020)012011:1-6.（EI：20200908225599）

10. Bin Ren, He Chunhong, Liu Huijie, Yang Lei, Xie Guobo，A polynomial smooth epsilonsupport vector regression based on cubic spline interpolation，High Technology Letters，2014，20（2）：187-194（EI：20142917947114）

11. BinRen, Huijie Liu, Longquan Yong.Harmony Search Algorithm with Chaos for Nonnegative Linear Least Squares,ICIC Express Letters, PartB: Applications, 2013,April,4(2):255-260.EI:20131316153735

12. BinRen, Huijie Liu, Lei Yang, Lianglun Cheng. Research of a polynomial smooth epsilon-insensitive loss function for SVR, Energy Education Science and Technology Part A: Energy Science and Research,2012,30(SUPPL.2):215-220.(EI: 20133516666463)

13. BinRen, Huijie Liu, Lei Yang, Lianglun Cheng.Anelectrical motor fault dectection schemebased on improved geneticalgorithm and optimal neural network, Journal of Theoretical and Applied Information Technology, 2012,45(1):273-277.EI:20131016090843

14. BinRen, Huijie Liu, Lei Yang, Lianglun Cheng.Smooth support vector regression based on modification spline interpolation. Journal of Theoretical and Applied Information Technology, 2012,44(1):92-100.EI:20124415617440

15. BinRen, Huijie Liu, Lei Yang, Lianglun Cheng.Classification of SMT Defect based on MetaClass and Support Vector Regression,International Journal of Advancements in Computing Technology,2012,4(14):35~42.EI:20123715422335

16. Bin Ren,Huijie Liu,LiangLun Cheng .Comparison between three algorithms for smooth support vector regression. International review on computers and software,2011,6(6):1169-1174.EI：20121814977613

17. Bin Ren, Huijie Liu，Lei Yang, Lianglun Cheng.Automatic optical path planning in SMT inspection system. International review on computers and software,2012,7(1):408-413.EI：20123115300941

18. Bin Ren,LiangLun Cheng . A Novel Smooth Support Vector Regression Based On Taylor Formula , Information,2012,15(1):23-32.(SCI:000301809700003,912OO)

19. BinRen，Lianglun,Cheng.A Smooth Support vector regression based on Maclaurin series expansion,Advanced Science Letters,Volume 7,2012 , pp. 281-285.

20. BinRen，Lianglun,Cheng.Research on smooth Support Vector Regression based on Hermite.Advanced Materials Research,2011,255:2215-2219.EI: 20112714114245

21. 任斌，程良伦。多项式光滑的支持向量回归机，控制理论与应用，2011，28（2）：261-265，EI：20111713938313

22. Bin Ren , LianglunCheng.Polynomial Smooth Epsilon-support Vector Regression Based on Hermite Interpolation,Journal of Computational Information Systems,2010,6(13):4523-4532 EI:20110313601300

23. Bin Ren, Lianglun Cheng.Research on smoothing support vector regression based on Cubic Spline Interpolation，International Conference on Image Processing and Pattern Recognition in Industrial Engineering：78201G EI:20103813249610

24. 任斌，程良伦。基于小波变换和 SSVME 的 PCB 产品视觉检测中缺陷分类研究，计算机应用与软件，2012,29 (6):167-171.

25. 任斌，徐会彬。基于总体最小二乘的泰勒级数展开的 TOA 的 UWB 定位方法，科学技术与工程，2013,13 (21):6129-6133

26. Bin Ren , Lianglun Cheng.SMT Automatic Optical Inspection Path Planning based on MDSPSO algorithm，Proceedings of the 2009 International Conference on Computational Intelligence and Natural Computing：134-137，EI:20094512430507

27. Bin Ren , Lianglun Cheng.Research of Classification System based on naive bayes and MetaClass，2009 2nd International Conference on Information and Computing Science：154-156 EI:20094712488043

28. Bin Ren YueSong, ShengxinLin. Application of EDA Simulation Software in Teaching Electronic Circuit, Technology and application of electronic information,2009,(2):48-52, ISTP:000273372300014

29. 任斌，程良伦。基于 RSPHL 算法的圆形标志定位方法，计算机工程，2011，37（5）：25-28

30. 任斌，程良伦.AOI 机器视觉系统中检测光源的分析和设计，微计算机信息，2009,25 (27):20-23

31. 任斌，程良伦。李雅普诺夫稳定性理论中 V 函数的构造研究，自动化与仪器仪表，2009 (2):8-11

32. He S , Zhang G , Song G. “Design of a networking stress wave communication method along pipelines”,Mechanical Systems and Signal Processing,2022,164:108192,

33. Zhang G , Yang P , He S , et al. A power waveform design based on OVSF-PPM for stress wave based wireless power transfer. Mechanical Systems and Signal Processing, 2021, 147(4):107111.

34. Zhang G , Gao W , Song G , et al. An imaging algorithm for damage detection with dispersion compensation using piezoceramic induced lamb waves. Smart Materials and Structures, 2017, 26(2):025017.

35. Zhang G , Zhu J, Song Y, Peng C and Song G, “A Time Reversal Based Pipeline Leakage Localization Method With the Adjustable Resolution.” IEEE Access, 2018, 6:26993-27000.

36. Zhang G , et al. “Negative Pressure Waves Based High Resolution Leakage Localization Method Using Piezoceramic Transducers and Multiple Temporal Convolutions.” Sensors, 2019, 19(9):1990.

37. Zhang G , Zhu J , Li J , et al. “High-resolution imaging algorithm based on temporal focal characteristic of time-reversed signal.” Systems Science & Control Engineering An Open Access Journal, 2019, 7(1):198-209.

38. Gao W , Zhang G , Li H , et al. “A novel time reversal sub‐group imaging method with noise suppression for

39. Zhang G , J.-S. Hong, and B.-Z. Wang, "Design and Time-Domain Analysis for a Novel Pattern Reconfigurable Antenna." IEEE Antennas and Wireless Propagation Letters, Vol.10, 365 - 368, 2011.

40. Zhang G , J.-S. Hong, and B.-Z. Wang, "Compact Wideband Unidirectional Antenna with a Reflector Connected to The Ground Using a stub." IEEE Antennas and Wireless Propagation Letters, Vol.10，1186 - 1189，2011.

41. Zhang G , etc., "Design and analysis for a novel compact wideband pattern reconfigurable antenna with alternate reflector and radiator." IET Microwaves, Antennas & Propagation, 2012.

42. Zhang G , etc., "Switched Band-Notched UWB/ WLAN Monopole Antenna." Applied Computational Electromagnetics society Journal, Vol. 27, No. 3, 256-260, 2012

43. Zhang G , J.-S. Hong, and B.-Z. Wang, “Two novel band-notched UWB slot antennas fed by microstrip line.” Progress In Electromagnetics Research, PIER 78, 209-218, 2008.

44. Zhang G , J.-S. Hong, and B.-Z. Wang, "A novel multi-folded UBW antenna fed by CPW." Journal of Electromagnetic Waves and Applications,vol.21, No.14, 2109-2119, 2007

45. Zhang G , J.-S. Hong, and B.-Z. Wang, etc. “Novel dual-band and broad-band designs of circle slot antenna with a cross-shaped stub.” Journal of Electromagnetic Waves and Applications, VOL. 21, NO. 14, pp. 2169–2179, 2007.

46. Zhang G , J.-S. Hong, and B.-Z. Wang, etc. “A novel planar monopole antenna with an H-shaped ground plane for dual-band WLAN applications.” Journal of Electromagnetic Waves and Applications, Vol. 21, No. 15, 2229–2239, 2007.

47. Zhang G  and B. He, “Novel multi-frequency and broad-band designs of isosceles triangular microstrip antennas with five stubs.” Journal of Electromagnetic Waves and Applications, Vol. 21, No. 15, 2257–2266, 2007.

48. J.-S. Hong, Zhang G , and B.-Z. Wang, “Novel distributed circuit model for transition between coplanar waveguide and microstrip by using the generalized telegrapher equation method.”  Microwave and Optical Technology Letters, VOL. 49, NO. 6, pp. 1323-1328, June 2007.

49. Zhang G , J.-S. Hong, and B.-Z. Wang, “Advances in the Research of Rectenna of Wireless Sensor Network”, Telecommunications Science, vol.4, pp59-65,2007. (language in Chinese)

50. 张光旻，洪劲松，王秉中。基于可重构天线的时间反演安全通信方法。微波学报，2012.

51. Luo, A., Xu, W., Sun, J., Xi, K., Tang, S., & Wang, F. (2022). Design and analysis of a vibration energy harvester with double-frequency up-conversion mechanism for self-powered sensing system in smart city. Nano Energy, 105,108030. JCR Q1, IF:19.07

52. Luo, A., Zhang, Y., Dai, X., Wang, Y., Xu, W., Lu, Y., ... & Wang, F. (2020). An inertial rotary energy harvester for vibrations at ultra-low frequency with high energy conversion efficiency. Applied Energy, 279, 115762. JCR Q1, IF:11.44

53. Luo, A., Xu, Y., Zhang, Y., Zhang, M., Zhang, X., Lu, Y., & Wang, F. (2021). Spray-coated electret materials with enhanced stability in a harsh environment for an MEMS energy harvesting device. Microsystems & Nanoengineering, 7(1), 1-9. JCR Q1, IF:8.0

54. Luo, A., Zhang, Y., Guo, X., Lu, Y., Lee, C., & Wang, F. (2021). Optimization of MEMS Vibration Energy Harvester With Perforated Electrode. Journal of Microelectromechanical Systems. 30 (2), 299-308 (IF: 2.42, Top journal in MEMS fabrication)

55. Li, M., Luo, A.*(co-first author), Luo, W., Liu, X., Wang, F. (2023). Electrostatic Vibration Energy Harvester with A Self-Rechargeable Electret. Electron Device Letters. JCR Q1, IF=4.81

56. Zhang, Y., Luo, A.(co-first author), Wang, Y., Dai, X., Lu, Y., & Wang, F. (2020). Rotational electromagnetic energy harvester for human motion application at low frequency. Applied Physics Letters, 116(5), 053902. JCR Q2, IF: 3.97 (ESI highly cited paper, Featured article)

57. Guo, X., He, T., Zhang, Z., Luo, A.(co-first author), Wang, F., Ng, E. J., ... & Lee, C. (2021). Artificial intelligence-enabled caregiving walking stick powered by ultra-low-frequency human motion. ACS Nano. 15(12), 19054-19069 JCR Q1, IF:18.0

58. Li M, Luo A, Luo W, Wang F. Recent Progress on Mechanical Optimization of MEMS Electret-Based Electrostatic Vibration Energy Harvesters. Journal of Microelectromechanical Systems. 2022 Oct;31(5):726–40.

59. Ramachandran, R., Wang, Y., Chandrasekaran, S., Li, M., Luo, A., Xu, Z. X., & Wang, F. (2022). Construction of MoS2 intercalated Siloxene heterostructure for all-solid-state symmetric supercapacitors. Applied Materials Today, 29, 101578.

60. Hu, Y., Luo, A., Wang, J., & Wang, F. (2019). Voltage regulation and power management for wireless flow sensor node self-powered by energy harvester with enhanced reliability. IEEE Access, 7, 154836-154843.

61. Zhang, Y., Wang, T., Luo, A., Hu, Y., Li, X., & Wang, F. (2018). Micro electrostatic energy harvester with both broad bandwidth and high normalized power density. Applied energy, 212, 362-371. (ESI Highly Cited Paper)

62. Zhang, Y., Luo, A., Xu, Y., Wang, T., & Wang, F. (2016). Wideband MEMS electrostatic energy harvester with dual resonant structure. IEEE SENSORS.

63. Xu, Y., Luo, A., Zhang, A., Zhang, Y., Tang, B., Wang, K., & Wang, F. (2016). Spray coating of polymer electret with polystyrene nanoparticles for electrostatic energy harvesting. Micro & Nano Letters, 11(10), 640-644.

64. Y. Wang, Y. Xing, Q.M. Li, 2022. A hyper-viscoelastic model for battery separators based on inverse-stress-solution parametrical calibration method, Int. J. Mech. Sci., 221 (2022) 107361. (SCI，中科院一区，Top)

65. Y. Wang, Q.M. Li, Y. Xing, Porosity variation of lithium-ion battery separators under uniaxial tension, Int. J. Mech. Sci., 174 (2020) 105496. (SCI，中科院一区，Top)

66. Y. Wang, Q.M. Li, Critical geometric boundary for the design of wrinkling-free thin film samples in the elastic regime of a uniaxial tensile test, Int. J. Mech. Sci., 204 (2021) 106485. (SCI，中科院一区，Top)

67. Y. Wang, H. Chen, Y. Yang, H. Zhou, G. Zhang, B. Ren, Y. Yuan, An Adaptive Grid Generation Approach to Pipeline Leakage Rapid Localization Based on Time Reversal, Sensors, 25 (2025) 1753 (SCI，中科院三区)

68. Y. Yang, G. Zhang, Y. Wang*, et al., Design of a networking bolted joints monitoring method based on PZT, Smart. Mater. Struct., 32 (2023) 064003 . (SCI，中科院二区，通讯作者)

A. Luo, S. Gu, X. Guo, W. Xu, Y. Wang, G. Zhong, C. Lee, F. Wang, AI-enhanced backpack with double frequency-up conversion vibration energy converter for motion recognition and extended battery life, Nano Energy, 131 (2024) 110302 (SCI，中科院一区，Top)

69. Y. Yang, Z. Chen, Y. Wang, J. Fu, Y. Gao, S. Wang, et al., Synthetic Multimode Orbital Angular Momentum Generation and Its Object Detection Application, IEEE Transactions on Antennas and Propagation. (SCI，中科院一区，Top)

70. J. Wu, Y. Wang, W. Zhang, Z. Nie, R. Lin, H. Ma, Defect detection of pipes using Lyapunov dimension of Duffing oscillator based on ultrasonic guided waves, Mech. Syst. Signal. Pr., 82 (2017) 130-147. (SCI，中科院一区，Top)

71. C. Yang, Q.M. Li, Y. Wang, Compressive properties of cuttlebone-like lattice (CLL) materials with functionally graded density, Eur. J. Mech. A. Solids, 87 (2021) 104215. (SCI，中科院二区)

72. J.Z. Huang, G.Y. Xu, Y. Wang, X.W. Ouyang, Equivalent deformation modulus of sandy pebble soil-Mathematical derivation and numerical simulation, Math. Biosci. Eng., 16 (2019) 2756-2774. (SCI，中科院四区)

73. Y. Liu, J. Gao, Y. Luo, and L. Zhang*. Robust Smith Predictor-Based Internal Model Nonlinear Control with Lead Compensation Extended State Observer for PMLSM Servo Systems Considering Time Delay, IEEE Transactions on Power Electronics, 2024: 39(5), 5424-5438. (SCI top)

74. Y. Liu, J. Gao, Y. Zhong, and L. Zhang*. Extended state observer-based IMC-PID tracking control of PMLSM servo systems, IEEE Access, 2021, 9, 49036-49046. (SCI)

75. Y. Liu, J. Gao*, and L. Zhang. IMC-PID Controller Based on Extended State Observer for Second-0rder Delayed Unstable Processes with Two Unstable Poles, Lecture Notes in Electrical Engineering, 2021, 706: 479-486. (EI)

76. 刘亚超，高健 *, 钟永彬，张揽宇。一阶大时滞系统的滞后时间削弱自抗扰控制，中南大学学报 (自然科学版), 2021,52 (5),1493-1501. (EI)

77. B. Zhan, L. Zhang*, Y. Liu, and J. Gao. Model predictive and compensated ADRC for permanent magnet synchronous linear motors, ISA Transactions, 2023, 136: 605-621. (SCI top)

78. L. Zhang, H. Lin, J. Gao*, Y. Liu, and X. Chen. A Dynamic Actuation Planning Method for Rapid Near-Zero-Overshoot Positioning of Motion Mechanism, IEEE-ASME Transactions on Mechatronics, 2024, doi: 10.1109/TMECH.2024.3498909. (SCI top)

79. Y. Luo, J. Gao*, F. Feng, Y. Liu, D. Chen, L. Zhang, and X. Chen. An Innovative Pose Decoupling Calibration Method for Five-Axis Hybrid Mechanism Through Rotation Vector Equivalence, IEEE Transactions on Industrial Electronics, 2025, doi: 10.1109/TIE.2025.3528502. (SCI top)

80. Y. Luo, J. Gao*, D. Chen, L. Zhang, Y. Liu, and Y. Zhong. Accurate error compensation method for multi-axis parallel machine via singularized jacobi geometric parameter correction and coupling error evaluation, Robotics and Computer-Integrated Manufacturing, 2024, 89, 102771. (SCI top)

81. Y. Liu, J. Gao, Y. Zhong, and L. Zhang*. Efficient Internal Model Control Based on Smith Predictor for PMLSM Servo System Considering Time Delay via Extended State Observer, 2023 IEEE 3rd International Conference on Data Science and Computer Application, ICDSCA 2023, pp: 61-66. (EI)

82. Y. Liu, J. Gao*, B. Zhan, and L. Zhang. Impact Force Control of High-Speed Wire Bonding Machine Based on Fuzzy Active Disturbance Rejection Controller, in proceedings of the 22th International Conference on Electronic Packaging Technology, ICEPT 2021. (EI)

83. Y. Liu, J. Gao*, L. Zhang, and X. Wang. Structural Design and Simulation Studies of ADRC for High-order Nonlinear Systems, in proceedings of the 38th Chinese Control Conference, CCC 2019, pp: 426-432. (EI)

84. Y. Liu, J. Gao*, L. Zhang, Y. Chen, H. Tang, X. Chen, and C. Cui. Smith-ADRC Based Z Axis Impact Force Control for High Speed Wire Bonding Machine, in proceedings of the 19th International Conference on Electronic Packaging Technology, ICEPT 2018, pp: 1003-1008. (EI)

85. Bin Liu, Zhiyong Chen, Hai-Tao Zhang*, Xudong Wang, Tao Geng, Housheng Su, Jin Zhao, Collective Dynamics and Control for Multiple Unmanned Surface Vessels, IEEE Transactions on Control Systems Technology, vol. 28, no. 6, pp. 2540-2547, Nov. 2020.

86. Bin Liu, Hai-Tao Zhang*, Haofei Meng, Dongfei Fu, Housheng Su, Scanning-Chain Formation Control for Multiple Unmanned Surface Vessels to Pass Through Water Channels, IEEE Transactions on Cybernetics, vol. 52, no. 3, pp. 1850-1861, March 2022.（ESI 高被引论文）

87. Bin Liu, Hai-Tao Zhang*, Haofei Meng, and Jun Wang, Fault-Tolerant Control of Autonomous Surface Vessels Subject to Steer Jamming for Harbor Returning, IEEE Transactions on Industrial Electronics, 2022, doi: 10.1109/TIE.2022.3215842.

88. Hai-Tao Zhang*; Bin Liu; Zhaomeng Cheng; Guanrong Chen; Model Predictive Flocking Control of the Cucker-Smale Multi-Agent Model With Input Constraints, IEEE Transactions on Circuits and Systems I: Regular Papers, 2016, vol.63, no. 8, pp. 1265-1275.

89. Bin-Bin Hu, Hai-Tao Zhang, Bin Liu, Haofei Meng, Guanrong Chen, Distributed Surrounding Control of Multiple Unmanned Surface Vessels With Varying Interconnection Topologies, IEEE Transactions on Control Systems Technology, vol.30, no.1, pp.400-407, 2022.

90. Hai-Tao Zhang, Bin-Bin Hu, Zhecheng Xu, Zhi Cai, Bin Liu, Xudong Wang, Tao Geng, Sheng Zhong, Jin Zhao, Visual Navigation and Landing Control of an Unmanned Aerial Vehicle on a Moving Autonomous Surface Vehicle via Adaptive Learning, IEEE Transactions on Neural Networks and Learning Systems, vol.32, no.12, pp.5345-5355, 2021.

91. Bin Liu; Tao Zhu; Hai-Tao Zhang*; Feedback control with feedforward sequence for nanopositioning system, 2016 35th Chinese Control Conference (CCC 2016), Chengdu, China, 2016-7-27 至 2016-7-29.

92. Bin Liu; Hai-Tao Zhang*; Yue Wu; Distributed Consensus Control of Multi-USV Systems, Intelligent Robotics and Applications (ICIRA 2017), 2017-8-16 至 2017-8-18.

93. B. Zhang, Z. Li, C. Li, et al. High-sensitive ppb-level ammonia QCM sensor based on sulfur doped Ti3C2Tx MXene. Sensors and Actuators A: Physical, 2023, 350:114138. (SCI，中科院二区，第一作者)

94. M. Li, B. Zhang*, L. Yang, et al. Sensitive and Stable NO2 Gas Sensors Employing Halogen-Passivated Colloidal Quantum Dots. IEEE sensors journal, 2023, 23 (13), 13891-13899. (SCI，中科院二区，通讯作者)

95. Z. Li, B. Zhang*, C. Fu, et al. Ultrafast and Sensitive Hydrophobic QCM Humidity Sensor by Sulfur Modified Ti3C2Tx MXene. IEEE Sensors journal, 2023, 23 (4), 3462-3468. (SCI，中科院二区，通讯作者)

96. B. Zhang, C. Li, M. Li, et al. High-Performance Ppb Level NO2 Gas Sensor Based on Colloidal SnO2 QuantumWires/ Ti3C2Tx MXene Composite. Nanomaterials, 2022, 12, 4464. (SCI，中科院三区，第一作者)

97. B. Zhang, M. Li, Z. Song, et al. Sensitive H2S gas sensors employing colloidal zinc oxide quantum dots. Sensors and Actuators B-Chemical, 2017, 249, 558-563. (SCI，中科院一区，TOP，第一作者)

98. J. Liu, Z. Hu, Y. Zhang, H. Li, N. Gao, Z. Tian, L. Zhou, B. Zhang, J. Tang, J. Zhang, F. Yi, H. Liu. MoS2 Nanosheets Sensitized with Quantum Dots for Room Temperature Gas Sensors. Nano-Micro Letters, 2020, 12 (1), 59. (SCI，中科院一区，TOP)

99. J. Wang, B. Zhang, J. Luo, et al. High performance NIR photodetector with mixed halogen passivation via precursor engineering, Optik, 2022, 266, 169597. (SCI，中科院三区，通讯作者)

100. J. Luo, C. Li, Q. Yang, L. Yan, B. Zhang, R. Tao, S. Rauf, H. Li, C. Fu. Facile Fabrication of MoS2 Nanoflowers/SnO2 Colloidal Quantum Dots Nanocomposite for Enhanced NO2 Sensing at Room Temperature. IEEE sensors journal, 2022, 22 (7), 6295-6302. (SCI，中科院二区)

101. S. Yang, Z. Song, N. Gao, Z. Hu, L. Zhou, J. Liu, B. Zhang, G. Zhang, S. Jiang, H. Li, H. Liu. Near room temperature operable H2S sensors based on In2O3 colloidal quantum dots. Sensors and Actuators B-Chemical, 2019, 286, 22-31. (SCI，中科院一区，TOP)

102. H. Kan, M. Li, J. Luo, B. Zhang, J. Liu, Z. Hu, G. Zhang, S. Jiang, H. Liu. PbS Nanowires-on-Paper Sensors for Room-Temperature Gas Detection. IEEE sensors journal, 2019, 19 (3), 846-851. (SCI，中科院二区)

103. F. Gao, Y. Wang, L. Xu, Z. Feng, Q. Wu, B. Zhang, J. Liu, J. Tang, M. Tang, H. Liu, S. Fu, Y. Ruan, H. Ebendorff-Heidepriem, D. Liu. Light-controllable fiber interferometer utilizing photoexcitation dynamics in colloidal quantum dot. Optics express, 2018, 26 (4), 3903-3914. (SCI，中科院二区，TOP)

104. H. Kan, M. Li, Z. Song, S. Liu, B. Zhang, J. Liu, M. Li, G. Zhang, S. Jiang, H. Liu. Highly sensitive response of solution-processed bismuth sulfide nanobelts for room-temperature nitrogen dioxide detection. Journal of Colloid and Interface Science. 2017, 506, 102-110. (SCI，中科院一区， TOP)

       105.H. Yu, Z. Song, Q. Liu, X. Ji, J. Liu, S. Xu, H. Kan, B. Zhang, J. Liu, J. Jiang, L. Miao, H. Liu. Colloidal synthesis of tungsten oxide quantum dots for sensitive and selective H2S gas detection. Sensors and Actuators B-Chemical, 2017, 248, 1029-1036. (SCI，中科院一区，TOP)