郭鑫 - 南京信息工程大学

个人简介

郭鑫，男。2021年9月博士毕业于东南大学仪器科学与技术专业，并于同年12月入职南京信息工程大学自动化学院。学习经历： 2007-09至2011-07，中国科学技术大学，光信息科学与技术，学士； 2011-09至2014-07，中国科学院大学，信号与信息处理，硕士； 2017-03至2021-09，东南大学，仪器科学与技术，博士； 2019-12至2020-11，新加坡国立大学，电子与计算机系，联合培养；工作经历： 2021-12至今，南京信息工程大学，自动化学院；申请专利： [1]（已授权）ZL201710536510.4，一种仿生双轴毛发传感器装置； [2]（已授权）ZL201810394218.8，一种四立柱体状质量块硅微机械陀螺仪； [3]（已授权）ZL202010408510.8，基于弱耦合谐振器三种工作方式的空气流速测量装置； [4]（已授权）ZL202010407665.X，一种基于谐振器能量局部化效应的双轴硅微加速度计； [5]（已授权）ZL202010398469.0，一种机械灵敏度和测量范围可调的硅微流速计； [6]（已授权）ZL202111071211.0，一种弱耦合谐振式传感器的能量守恒闭环控制装置； [7]（已授权）ZL202110264284.5，一种直接测量弱耦合谐振器的振幅比的装置； [8] 202010443077.1，一种驱动振幅放大的主从质量微机械毛发陀螺仪； [9] 201910324364.8，基于弱耦合谐振器的微机械毛发流速传感器及其运行方法；科研项目： [1] 江苏省自然科学基金青年项目，在研，主持； [2] 南京信息工程大学人才启动项目，在研，主持； [3] 企业委托项目，在研，主持； [4] 江苏省研究生科研创新基金项目，结题，主持； [5] 国家自然科学基金面上项目，61874025，在研，参与； [6] 国家自然科学基金面上项目，61571126，结题，参与；

研究领域

主要从事智能微机电系统仪表（特别是MEMS加速度计、陀螺仪、谐振器、流速计等）方面的研究工作，重点开展MEMS传感器与执行器的敏感拓扑结构设计、新型加工工艺及封装技术以及模数混合测控系统等方面的技术研究。

近期论文

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[1] 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, vol. 70, p. 3001510, Jun. 2021. (SCI) [2] Xin Guo, Bo Yang*, Cheng Li, Zhuoyue Liang. Oscillatory Airflow Sensing Employing MEMS Weakly Coupled Resonators. IEEE Sensors journal, vol. 21, no. 13, pp. 14739-14748, Apr. 2021. (SCI) [3] Xin Guo, Bo Yang*, Cheng Li, Zhuoyue Liang. Enhancing Output Linearity of Weakly Coupled Resonators by Simple Algebraic Operations. Sensors and actuators A: physical, vol. 325, p. 112696, Mar. 2021. (SCI) [4] Xin Guo, Xiangqian Quan, Zizheng Li*, Qiang Li, Binzhi Zhang*, Xin Zhang, Chi Song. Broadband Anti-reflection Coatings Fabricated by Precise Time Controlled Deposition and Oblique Angle Deposition Methods. Coatings, in-press, Apr. 2021. (SCI) [5] 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, vol. 31, no. 2, p. 025001, Dec. 2020. (SCI) [6] Xin Guo, Bo Yang*, Cheng Li. Research of a novel stereoscopic symmetrical quadruple hair gyroscope. Microsystem Technologies, vol. 25, no. 10, pp. 3655-3671, Jan. 2019. (SCI) [7] 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, vol. 9, p. 0550330, May. 2019. (SCI) [8] Xin Guo, Bo Yang*, Cheng Li. Motion characteristics and non-ideal dynamics of a stereoscopic symmetrical quadruple hair gyroscope (SSQHG). AIP advances, vol. 9, p. 045119, Apr. 2019. (SCI) [9] Bo Yang, Xin Guo*, Qinghua Wang, Chengfu Lu, Di Hu. A novel flow sensor based on resonant sensing with two-stage microleverage mechanism. Review of Scientific Instruments, vol. 89, p. 045002, Apr. 2018. (SCI) [10] Zhuoyue Liang, Xin Guo, Bo Yang*, Ting Zhang. Design and Characterization of a Novel Biaxial Bionic Hair Flow Sensor Based on Resonant Sensing. Sensors, vol. 20, p. 4483, Aug. 2020. (SCI) [11] Cheng Li, Bo Yang*, Xiang Zheng, Xin Guo, Zhenyu Sun, Luqiang Zhou, and Xin Huang. 2 ng/√ Hz-Resolution Optomechanical Accelerometer Employing a Three-Dimensional MEMS Interferometer. Optics Letters, 2022, 47(7):1883-1886. (SCI) [12] Cheng Li, Bo Yang*, Xin Guo, and Xinru Chen. Design, Analysis and Simulation of a MEMS-Based Gyroscope with Differential Tunneling Magnetoresistance Sensing Structure. Sensors, 2020, 20(17):4919. (SCI) [13] Cheng Li, Bo Yang*, Xin Guo, and Lei Wu. A Digital Calibration Technique of MEMS Gyroscope for Closed-Loop Mode-Matching Control. Micromachines, 2019, 10(8):496. (SCI) [14] Xin Guo, Bo Yang*, Cheng Li. A dual-axis hair flow sensor based on weakly coupled double ended tuning forks. The 34th IEEE International Conference on Micro Electro Mechanical Systems (IEEE MEMS), 2021. (EI) [15] Xin Guo, Bo Yang*, Cheng Li. A stereoscopic symmetrical quadruple mass gyroscope. IEEE Information Technology and Mechatronics Engineering Conference, 2018. (EI) [16] Xin Guo, Bo Yang*, Qinghua Wang, Chengfu Lu, Di Hu. Design and Characterization of a Novel Bio-inspired Hair Flow Sensor Based on Resonant Sensing. Journal of Physics Conference Series, 2018. (EI) [17] Bo Yang, Xin Guo*, Qinghua Wang, Chengfu Lu. A biologically-inspired hair accelerometer based on resonant sensing. IEEE International Symposium on Inertial Sensors and Systems (IEEE INERTIAL), 2018. (EI)