杨波
教授 博士生导师,硕士生导师
电话:025-83793559 电子邮箱:yangbo20022002@163.com
办公地址: 邮编:
  • 基本信息
  • 教学工作
  • 科研成果
  • 荣誉奖励
  • 学术兼职
  • 招生情况
教育经历

2007毕业于东南大学仪器科学与工程学院获博士学位

工作经历

2019-4至现在, 东南大学, 仪器科学与工程学院, 教授(博导)

2020-12020-2, 新加坡国立大学, 电子工程和计算机, 高级访问学者

2012-52013-5, 美国密西根大学, 博士后

2011-42019-4, 东南大学, 仪器科学与工程学院, 副教授

2007-102011-4, 东南大学, 仪器科学与工程学院, 讲师



科研方向

1.智能微系统技术研究(智能传感信息融合(机器学习,AI算法)、智能通信和组网微系统(蓝牙/Zeegbe/WIFI/5G等)、智能导航定位微系统、智能神经接口和脑机接口微系统、微型仿生飞行器机器人);

2. 导航、定位与测控技术研究(室内定位技术、组合导航技术、自主导航系统);

3. 智能传感器芯片研究(芯片设计、仿真、加工和测控技术(与IC芯片研究类似、部分学生进入IC行业)、微纳MEMS传感器、仿生传感器、量子传感器、光学传感器等);

4. 智能模数混合测控系统设计及应用技术(FPGADSPARM 等嵌入式平台,硬件电路设计、嵌入式系统和算法设计、软件界面设计)。


联系方式
办公电话:025-83793559
邮箱:yangbo20022002@163.com
办公地址:

博士生:微惯性技术理论与微机电系统

硕士生:微型惯性仪表的理论与应用,

本科生:电子电路基础

发表相关学术论文近80余篇,其中60余篇被Sci/EI检索;已申请专利50余项,授权40余项;出版专著“微惯性仪表与微系统”(排名第三)。主持国家自然科学基金项目(4项)、科技委科技创新特区项目、国家“十二五”预研项目、预研领域基金、航空基金、船舶工业预研基金、教育部博士点基金、江苏省研究生教育教学改革研究与实践课题,东南大学创新基金、东南大学基本科研业务费重大科学研究引导基金等多个纵向和和多个横向项目研究工作。参与国家“十五”预研项目,国家“十一五”预研项目,国家自然科学基金,江苏省自然科学基金,教育部博士点基金和横向项目多项。

代表性SCI论文

[1]Y. Jiang, W. Zhao, Y. Jiang, K. Sun, X. Huang and B. Yang.Wireless Multi-sensors Platform for Distributed Insect Biobot Sensing Network. IEEE Sensors Journal, 2023(Early Access)

[2]Cheng Li,Bo Yang,Xiang Zheng,Xin Guo. A 2ng/√Hz resolution optomechanical accelerometer employing a three-dimensional MEMS interferometer. Optics Letters,2022,47(7):18831886.

[3]Cheng Li, Bo Yang, Xiang Zheng, Zhenyu Sun.An Optical Interferometry Based MEMS Accelerometer Applicable to Seismic-Grade Measurement. IEEE TRANSACTIONS ON INSTRUMENTAION AND MEASUREMENT,2022, 71:7503810.

[4]Cheng Li,Bo YangXiang Zheng,Zhenyu Sun,Luqiang Zhou,Xin Huang.Nano-g Micro-Optics Accelerometer With Force Feedback Control and Improved Dynamic Range. IEEE Sensors Journal,202222(14):14018-14025.

[5]Y. Nie, C. Li, X. Chen,B. Yang.Optimization of Structure and Control Technology of Tunnel Magnetoresistive Accelerometer. IEEE Sensors Journal,2022, 22(24): 23734-23742

[6]Jiang Y, Yang B, Jiang Y, Zhao W, Guo X.  Flight cessation and modulation control of coleopteran employing wireless miniature muscular stimulators. Measurement and Control, 2022,55(7-8):821-829.

[7]Xin Guo, Bo Yang, Cheng Li, Zhuoyue Liang, Yongchang Jiang. Direct measuring the amplitude ratios of weakly coupled resonators based on amplitude closed-loop control. IEEE Transactions on Instrumentation and Measurement, 2021, 70.

[8]Xin Guo, Bo Yang, Cheng Li, Zhuoyue Liang. Oscillatory Airflow Sensing Employing MEMS Weakly Coupled Resonators . IEEE Sensors journal, 2021, 21(13).

[9]Xin Guo, Bo Yang, Cheng Li, Zhuoyue Liang. Enhancing Output Linearity of Weakly Coupled Resonators by Simple Algebraic Operations. Sensors and actuators A: physical, 2021, 325

[10]Xin Guo, Bo Yang, Cheng Li, Zhuoyue Liang. Mode localized artificial hair sensor with enhanced linearity applied for dual-axis air flow sensing. Journal of Micromechanics and Microengineering, 2020, 31(2)

[11]Feng Yu, Yang Bo, Jiang Yongchang.  Research on Key Techniques of Insect Flapping Onset Control Based on Electrical Stimulation. SENSORS, 2020, 20(1).

[12]Bo Yang ,Xiaoyong Gao, Cheng Li . A Novel Micromachined Z-axis Torsional Accelerometer Based on Tunneling Magnetoresistive Effect. Micromachines, 2020,11(4)

[13] Cheng Li, Bo Yang, Xin Guo,Xinru Chen. Design, Analysis and Simulation of a MEMS-Based Gyroscope with Differential Tunneling Magnetoresistance Sensing Structure. Sensors,2020,20(17)

[14] Bo Yang,Ting Zhang,Zhuoyue Liang,Chengfu Lu. Research on an Artificial Lateral Line System Based on a Bionic Hair Sensor with Resonant Readout. Micromachines, 2019, 10(11).

[15] Xin Guo, Bo Yang, Cheng Li. Design, modeling and theoretical analysis of a novel dual-axis hair flow sensor based on mode localization of weakly coupled resonators. AIP Advances, 2019, 9.

[16] Cheng Li, Bo Yang. A Digital Calibration Technique of MEMS Gyroscope for Closed-Loop Mode-Matching Control. MICROMACHINES, 2019,108

[17] Xin Guo, Bo Yang, Cheng Li. Research of a novel stereoscopic symmetrical quadruple hair gyroscope, Microsystem technologies, 2019, 25(10).

[18] Bo Yang, Binlong Wang,Xiaoyong Gao. Research on a small tunnel magnetoresistive accelerometer based on 3D printing. Microsystem Technologies, 2019,25(7).

[19] Xin Guo, Bo Yang, Cheng Li. Motion characteristics and non-ideal dynamics of a stereoscopic symmetrical quadruple hair gyroscope (SSQHG), AIP Advances, 2019, 9.

[20] Bo Yang, Binlong Wang. Design of a Micromachined Z-axis Tunneling Magnetoresistive Accelerometer with Electrostatic Force Feedback. Micromachines, 2019,10(2).

[21] Bo Yang, Lei Wu. A Digital Mode-matching Control System Based on Feedback Calibration for MEMS Gyroscope. Journal of Sensors,2019, Vol.2019 .

[22] Bo Yang, Xin Guo, QiuHua Wang. A novel flow sensor based on resonant sensing with two-stage microleverage mechanism, REVIEW OF SCIENTIFIC INSTRUMENTS, 2018, 89.

[23] Bo Yang, Chengfu Lu. Design and analysis of a new three-axis micro-gyroscope. Microsystem Technologies,2018, 24(2) .

[24] Bo Yang,Lei Wu,Binlong Wang, Qiuhua Wang. Digital Closed-Loop Driving Technique Using the PFD-Based CORDIC Algorithm for a Biaxial Resonant Microaccelerometer. Journal of Sensors, 2017,Vol. 2017.

[25] Bo Yang,Di Hu,Xingjun Wang,Lei Wu. Research of a Symmetrical Decoupled Dual-mass Micro-gyroscope with an Improved Lever Support System. Microsystem Technologies, 2017,23(3).

[26] Bo Yang,Xingjun Wang,Di Hu,Yunpeng Deng. Research on Non-ideal Dynamic on a Dual-mass Silicon Micro-gyroscope. Microsystem Technologies, 2017, 23(1).

[27] Bo Yang, Di Hu. Design and analysis of a new hair sensor for multi-physical signal measurement. Sensors2016, 167.

[28] Bo Yang, Xingjun Wang, Yunpeng Deng, Di Hu. Mechanical Coupling Error Suppression Technology of for an Improved Decoupled Dual-mass Micro-gyroscope. Sensors2016,164.

[29] Lei ZhaoBo DaiBo Yang. Design and simulations of a new biaxial silicon resonant micro-accelerometer. Microsystem Technologies2016, 2212.

[30] Bo Yang,Bo Dai,Xiaojun Liu,Lu Xu,Yunpeng Deng.The on chip temperature compensation and temperature control research for the silicon microgyroscope. Microsystem Technologies2015,21(5).

[31] Bo Yang,Xingjun Wang,Bo Dai,Xiaojun Liu. A New Z-axis Resonant Micro-Accelerometer Based on Electrostatic Stiffness. Sensors, 2015,15(1).

[32] Bo Yang,Hui Zhao,Bo Dai,Xiaojun Liu. A new silicon biaxial decoupled resonant microaccelerometer. Microsystem Technologies, 2015, 21(1).

[33] Yang Bo,Guan Yumei,Wang Shourong,Zou Qi,Chu Xian, Xue Haiyan. A New Hybrid Gyroscope with Electrostatic Negative Stiffness Tuning. Sensors, 2013,13(6).



2018年获得教育部技术发明奖二等(排名第3),2016年获得NSAF基金优秀奖,2014年入选江苏省“六大人才高峰”第十一批高层次人才,获得2019年和2015度“东南大学中泰国立奖教金”,2010度“南京新城科技园奖教金”,2009获东南大学“青年教师授课竞赛“提名奖。

科技委创新特区专家,国家自然科学基金函评专家;江苏省仪器仪表学会理事;教育部学位中心学位论文评审专家;IEEE Sensors journal,Sensors and actuators A,Journal of Micromechanics and Microengineering

Optical Engineering, 兵器装备工程学报 ,宇航学报 等多个国内外期刊审稿专家;中国惯性技术学会会员;中国宇航学会会员

硕士生:3-4人/年,博士生,1-2人/年,博士后,1-2人/年。
欢迎仪器科学与技术、电子、信息、自动化、机械、物理等相关专业的同学报考(特别欢迎有兴趣从事多学科交叉课题研究同学)。