姓名:李崇
职称/职务:副教授、博士研究生导师、山东省泰山学者青年专家
专业:自动化
所在单位:工程学院自动化及测控系
通讯地址:青岛市松岭路238号 中国海洋大学工程学院
电子信箱:chongliouc@126.com
学习及工作经历:
1. 2005.09-2009.07,中国海洋大学,自动化,学士
2. 2009.09-2012.07,中国海洋大学,控制理论与控制工程,硕士
3. 2012.08-2016.07,Auburn University (奥本大学,美国),机械工程,博士
4. 2016.08-2018.10,Georgia Institute of Technology(佐治亚理工学院,美国),电子工程系,博士后
5. 2019.03-,中国海洋大学,自动化及测控系,“青年英才”人才工程入选者,副教授,享受山东省高层次人才绿色服务通道
研究方向/岗位职责:
研究理念:科学理论与工程实践相并重,以先进理论知识解决实际重大工程问题。发表一作/通讯作者MEMS陀螺、微系统建模与抗扰控制论文40余篇,其中第一作者/通讯作者身份的SCI论文30余篇,获各类专利授权10余项。主持国家级科研项目3项,省部级、航天、兵器集团合作项目10余项。担任众多控制系统、传感器类国际知名期刊客座编辑、审稿人。
当前具体研究方向:微系统与精密控制、MEMS传感器、控制理论与动力学、嵌入式系统。
讲授课程:
1.传感器与检测技术
2.电机拖动控制系统
3.研究生论文写作
研究生招生要求:
基本要求:有志向从事前沿科学研究工作,学习态度端正,为人诚信、踏实。
满足以下一项或多项条件者优先:
1.数理基础知识优良
2.熟悉动力学、材料力学与有限元分析
3.实践动手能力强,熟练掌握FPGA或嵌入式开发技术
4.以主力参加过智能车大赛、电子设计大赛、数学建模竞赛等科技竞赛并获奖,或参加过大学生创新实践项目
科研项目:
1.基于高频激励的全角式微陀螺在线校正方法研究,国家自然科学基金面上项目,54万,2022-2025,项目负责人。
2. xxxx陀螺自动xxx技术,装备预研项目,50万,2022-2023,项目负责人。
3. xxxx(涉密)原理及其校正方法,装备预研项目,50万,2021-2022,项目负责人。
4.精密谐振式陀螺仪核心技术研究,中央高校基本科研业务费关键核心技术类,150万,2019-2021,项目负责人。
5.微机电陀螺仪精密控制方法研究,人才工程启动经费,30万,2019-2021,项目负责人。
6.水下精密谐振式陀螺,服务青岛产业项目,30万,2019-2020,项目负责人。
7.xxx微机电陀螺电路设计技术,横向课题,45万,2020-2021,项目负责人。
8.xx型陀螺接口电路,横向课题,30万,2019-2021,项目负责人。
9.高机动水下滑翔机精细抗扰姿态控制技术,山东省自然科学基金,15万,2021-2023,项目负责人。
10. xxx(涉密)惯性技术项目,1500万,2019-2020,项目参与人。
11. xxx(涉密)传感器工程化技术,800万,2022-2024,项目参与人。
部分代表性论著:
[1] Chong Li, Yuchen Wang, etc., “Milli-Hertz Frequency Tuning Architecture Towards High Repeatable Micromachined Axi-Symmetry Gyroscopes”,IEEE Transactions on Industrial Electronics (2022). (SCI, 控制系统与传感器顶级期刊)
[2] Yuchen Wang, etc, Chong Li*, etc., “Ultrafast Mode Reversal Coriolis Gyroscopes”, IEEE/ASME Transactions on Mechatronics(2022). (SCI, 控制系统与传感器顶级期刊,通讯作者)
[3] Xuegong Wang, etc, Chong Li*, etc., “Data-attention-YOLO (DAY): A comprehensive framework for mesoscale eddy identification”, Pattern Recognition (2023). (SCI, 人工智能知名期刊,通讯作者)
[4] Xinning Wng, Yuben Zhao, Chong Li*, Peng Ren, “ProbSAP: A comprehensive and high-performance system for student academic performance prediction”, Pattern Recognition (2022). (SCI, 人工智能知名期刊,通讯作者)
[5] Xiangrui Meng, etc, Chong Li*, “Online asymmetry estimation for whole angle mode coriolis vibratory gyroscopes by high frequency injection”, Defence Technology(2022). (SCI, 兵工类知名期刊,通讯作者)
[6] Chong Li, etc. , Farrokh Ayazi, “An FPGA-Based Interface System for High-Frequency Bulk-Acoustic-Wave Microgyroscopes With In-Run Automatic Mode-Matching.” IEEE Transactions on Instrumentation and Measurement (2020). (SCI, 传感器顶级期刊)
[7] Chong Li, Haoran Wen, Hua Chen, Farrokh Ayazi, “A Digital Force-to-Rebalance Scheme for High-Frequency Bulk-Acoustic-Wave Micro-Gyroscopes.” Sensors and Actuators A: Physical (2020). (SCI, 传感器顶级期刊)
[8] Yuchen Wang, Rui Cao, Chong Li*, Robert Dean, "Concepts, Roadmaps and Challenges of Ovenized MEMS Gyroscopes: A Review." IEEE Sensors Journal (2020).(SCI,传感器顶级期刊,通讯作者)
[9] Wanliang Zhao, Yijie Rong, Chong Li*, Yuchen Wang, etc. ,“High Precision Hemispherical Resonator Gyroscopes With Oven Control Systems”, IEEE Sensors Journal (2021). (SCI,传感器顶级期刊,通讯作者)
[10] Chong Li, Haoyue Yang, Luke L Jenkins, Robert N Dean, George T Flowers, John Y Hung, “Enhanced-performance control of an electromagnetic solenoid system using a digital controller.” IEEE Transactions on Control Systems Technology (2016).(SCI, 控制工程顶级期刊)
[11] Xinning Wang, Chong Li*,“Android malware detection through machine learning on kernel task structures”, Neurocomputing (2021). (SCI,中科院二区期刊,通讯作者)
[12] Jin Wu, Yi Jiang*, Chong Li*, etc.,“Circuit Synthesis of 3-D Rotation Orthonormalization”, IEEE Transactions on Circuits and Systems II: Express Briefs (2021). (SCI,中科院二区期刊,通讯作者)
[13] Xinning Wang, Xuegong Wang, Chong Li*,etc., “MesoGRU: Deep Learning Framework for Mesoscale Eddy Trajectory Prediction”, IEEE Geoscience and Remote Sensing Letters (2021). (SCI,中科院二区期刊,通讯作者)
[14] Jin Wu, Chong Li*, Chengxi Zhang, etc., “Trust-Region Solver of A Nonlinear Magnetometer Disturbance Estimation Problem”, IEEE Sensors Journal (2021). (SCI,中科院二区期刊,通讯作者)
[15] Jin Wu, Ming Liu, etc. , Chong Li, “Globally Optimal Symbolic Hand-Eye Calibration”, IEEE/ASME Transactions on Mechatronics (2020). (SCI,中科院一区期刊)
[16] Wanliang Zhao, etc., Chong Li*, “High sensitivity rate-integrating hemispherical resonator gyroscope with dead area compensation for damping asymmetry”, Scientific Reports (2021). (SCI,中科院三区期刊,通讯作者)
[17] Liqin Zhou, etc. , Chong Li*, “Double-boundary interval fault-tolerant control for a multi-vector propulsion ROV with thruster failure.” Industrial Robot: the international journal of robotics research and application (2020).(SCI, 通讯作者)
[18] Dalei Song, Renyu Hou, Chong Li*, John Hung, Jiliang Wang, “Complementary Constrained Model Predictive Depth Control of a Hybridly-Actuated Submarine Drifter.” IEEE Access (2020).(SCI, 通讯作者)
[19] Dalei Song, Lin Li, Changbin Wang, Renyu Hou, Chong Li*, “A practical robust yaw servo architecture of ROVs by multi-vector propulsion and nonlinear controller.” Transactions of the Institute of Measurement and Control (2020).(SCI, 通讯作者)
[20] Zhenxiang Qi, Jin Wu, Chong Li*, Wanliang Zhao, Yuxiang Cheng, “Micromachined Rate-Integrating Gyroscopes: Concept, Asymmetry Error Sources and Phenomena.” Symmetry (2020).(SCI, 通讯作者)
[21] Chong Li, Xinning Wang, Renyu Hou, Robert N Dean, Liqin Zhou, Yuhang Dong, Dalei Song, “Beyond Snap-In: A Hybrid Nonlinear Control Approach for Actuators Possessing a Square-Law Characteristic.” Electronics (2019).(SCI)
[22] Xinning Wang, Chong Li, Dalei Song, Robert Dean, “A Nonlinear Circuit Analysis Technique for Time-Variant Inductor Systems.” Sensors (2019). (SCI, 共同第一作者)
[23] Chong Li, Robert N Dean, George T Flowers, “Analysis and dynamic simulation of the synthetic voltage division controller for extending the parallel plate actuator stable range of motion.” Microsystem Technologies (2017).(SCI)
[24] Chong Li, Haoyue Yang, Robert N Dean, George T Flowers, “Active vibration isolator based on micromachined electrostatic actuators.” Micro & Nano Letters (2016).(SCI)
[25] Chong Li, Robert N Dean, John Y Hung, George T Flowers, “Feedback posicast control for micromachined electrostatic actuators.” Micro & Nano Letters (2016).(SCI)
[26] Chong Li, Robert N Dean, George T Flowers, “Self-sensing estimator for micromachined electrostatic actuators and parameters’ optimization.” Micro & Nano Letters (2016).(SCI)
[27] Chong Li, Robert Neal Dean, George T Flowers, “Nonlinear circuit analysis technique for microelectromechanical systems with a time-variant capacitor and an ac power source.” Micro & Nano Letters (2015).(SCI)
[28] Shengbo Qi, Xinning Wang, Chong Li and Robert Dean, ” Robust high bandwidth oscillation-free digital feedforward compensator for micromachined actuators”, IET Micro & Nano Letters, Volume 11, Issue 11. (SCI)
[29] Xinning Wang, Chong Li, “RaNetMalDozer: A Novel NN-Based Model for Android Malware Detection Over Task Kernel Structures”, International Conference on Algorithms and Architectures for Parallel Processing (2019) (CCF推荐会议,通讯作者)
[30] Xinning Wang, Chong Li, “KerTSDroid: Detecting Android Malware at Scale through Kernel Task Structures”, IEEE 25th International Conference on Parallel and Distributed Systems (ICPADS) (2019) (CCF推荐会议,通讯作者)
[31] Chong Li, C. Lavinia Elana Robert N. Dean, George T. Flowers, “A MEMS PPA Based Active Vibration Isolator”, 2016 IMAPS Device Packaging Conference, Scottsdale /Fountain Hills, AZ, March 14-17, 2016(最佳学生论文奖).
[32] Chong Li, Robert N. Dean, George T. Flowers,“Nonlinear Observability Analysis of Micro-machined Electrostatic Actuators Using Self-Sensing”, 2016 IMAPS Device Packaging Conference, , Scottsdale /Fountain Hills, AZ, March 14-17, 2016.
[33] Chong Li, Yixuan Wu, Haoyue Yang, L. Jenkins, R.N. Dean, G.T. Flowers “A Microcontroller Approach to Measuring the Transmissibility of MEMS Devices,” 2015 IMAPS Device Packaging Conference, Scottsdale/Fountain Hills, AZ, March 11-14, 2015.
[34] Chong Li, Robert N. Dean, George T. Flowers, John Y. Hung, “Nonlinear Feedback Control to Enhance Stable Performance of Micromachined Electrostatic Parallel Plate Actuators”, International Journal of Automation and Power Engineering, Volume 3, Issue1, 2014.
部分专利:
1.李崇,等,一种高动态MEMS谐振式陀螺仪力平衡控制方法,CN201910835424.2(实审);
2.李崇,等,一种MEMS谐振式陀螺仪接口电路与测控系统,CN201910832583.7(实审);
3.李崇,等,一种高信噪比MEMS谐振式陀螺仪信号处理系统,ZL201921470433.8;
4.李崇,等,一种新型MEMS谐振式陀螺仪测控装置,ZL201921461254.8;
5.李崇,等,并行激励陀螺数字化信号检测装置,202020262025.X(受理);
6.李崇,等,一种差分带通式调频MEMS陀螺仪速率解析装置及方法,202010108635.9(受理);
7.李崇,等,MEMS谐振器信号读出装置及方法,202010149184.3(受理);
8.李崇,等,一种调频MEMS陀螺仪速率解析装置,202020196797.8(受理);
9.李崇,等,全驱动微型谐振器信号读出模拟电路,202020262100.2(受理);
10.李崇,等,一种调频陀螺仪数字解调系统及方法,202010144782.1(受理)。
