学术成果
发表论文
[1] Zhao L, Yang C. A Comparative Study between Carbon Tax and Carbon Trading Scheme Based on DSGE., 2019, ACM, 2019:1~5
[2] Xinli Z, Li X. A Finite-Time Robust Adaptive Sliding Mode Control for Electro-Optical Targeting System With Friction Compensation. IEEE Access, 2019,7:166318~166328
[3] Zhao L, Yang Y, Xia Y, et al. Active Disturbance Rejection Position Control for a Magnetic Rodless Pneumatic Cylinder. IEEE Transactions on Industrial Electronics, 2015,62(9):5838~5846
[4] Yang Y, Zhao L, Fan X, et al. Active disturbance rejection trajectory tracking control for pneumatic servo system based on backstepping approach., 2015, Technical Committee on Control Theory, Chinese Association of Automation, 2015:4308~4312
[5] Zhao L, Cheng H, Zhang J, et al. Adaptive control for a motion mechanism with pneumatic artificial muscles subject to dead-zones. Mechanical Systems and Signal Processing, 2021,148:107155
[6] Yue F, Li X. Adaptive sliding mode control based on friction compensation for opto-electronic tracking system using neural network approximations. Nonlinear Dynamics, 2019,96(4):2601~2612
[7] Wu Y, Li X, Liu F, et al. An On-Orbit Dynamic Calibration Method for an MHD Micro-Angular Vibration Sensor Using a Laser Interferometer. Sensors, 2019,19(19):4291
[8] Chen Z, Dong J, Li X. Analysis of the Output Characteristics of a Novel Small-Angle Transducer Used in High-Precision Inertial Sensors. Sensors, 2018,18(10):3478
[9] Tuo W, Li X, Ji Y, et al. Analytical Compliance Model for Right Circle Flexure Hinge Considering the Stress Concentration Effect. International Journal of Precision Engineering and Manufacturing, 2020,21(5):895~904
[10] Zhao L, Cheng H, Zhang J, et al. Angle Attitude Control for a 2-DOF Parallel Mechanism of PMAs Using Tracking Differentiators. IEEE Transactions on Industrial Electronics, 2019,66(11):8659~8669
[11] Zhao L, Cheng H, Zhang J, et al. Angle Attitude Control for a 2-DOF Parallel Mechanism of PMAs Using Tracking Differentiators. IEEE Transactions on Industrial Electronics, 2019,66(11):8659~8669
[12] Zhao L, Cheng H, Xia Y, et al. Angle Tracking Adaptive Backstepping Control for a Mechanism of Pneumatic Muscle Actuators via an AESO. IEEE Transactions on Industrial Electronics, 2019,66(6):4566~4576
[13] Zhao L, Liu X, Zhang J, et al. Angle tracking control for double-joint dexterous hand systems based on a piecewise extended state observer. Control Engineering Practice, 2021,110:104754
[14] Yang S, Li X, Wu C, et al. Application of the PJ and NPS evaporation duct models over the South China Sea (SCS) in winter. PLOS ONE, 2017,12(3):e172284
[15] Zhao L, Dai L, Xia Y, et al. Attitude control for quadrotors subjected to wind disturbances via active disturbance rejection control and integral sliding mode control. Mechanical Systems and Signal Processing, 2019,129:531~545
[16] Wang Q, Qiu Z, Li H, et al. Ballasting Weight on Net Buoyancy Changes and Submergence Depth for a Spherical Buoyancy–Driven Intelligent Float Based on the Ballasting Method. IEEE Access, 2019,7:165943~165960
[17] Qiu Z, Wang Q, Li H, et al. Depth Control for a Deep-Sea Self-Holding Intelligent Buoy Under Ocean Current Disturbances Based on Finite-Time Boundedness Method. IEEE Access, 2019,7:114670~114684
[18] Fang C, Li X, Xie Z, et al. Design and Optimization of an Inductively Coupled Power Transfer System for the Underwater Sensors of Ocean Buoys. Energies, 2017,10(1):84
[19] Liu M, Yang S, Li H, et al. Energy Consumption Analysis and Optimization of the Deep-Sea Self-Sustaining Profile Buoy. Energies, 2019,12(12):2316
[20] Li D, Wu T, Ji Y, et al. Model analysis and resonance suppression of wide-bandwidth inertial reference system. Nanotechnology and Precision Engineering, 2019,2(4):177~187
[21] Zhao L, Xia Y, Yang Y, et al. Multicontroller Positioning Strategy for a Pneumatic Servo System Via Pressure Feedback. IEEE Transactions on Industrial Electronics, 2017,64(6):4800~4809
[22] Zhao L, Zhang B, Yang H, et al. Observer-Based Integral Sliding Mode Tracking Control for a Pneumatic Cylinder With Varying Loads. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 2020,50(7):2650~2658
[23] Xu J, Li X, Xie Z, et al. Research on a Multiple-Receiver Inductively Coupled Power Transfer System for Mooring Buoy Applications. Energies (Basel), 2017,10(4):519
[24] Yue F, Li X. Robust adaptive integral backstepping control for opto-electronic tracking system based on modified LuGre friction model. ISA Transactions, 2018,80:312~321
[25] Ji Y, Li X, Wu T, et al. Study on magnetohydrodynamics angular rate sensor under non-uniform magnetic field. Sensor Review, 2016,36(4):359~367
[26] Yang S, Liu S, Li X, et al. The short-term forecasting of evaporation duct height (EDH) based on ARIMA model. Multimedia Tools and Applications, 2017,76(23):24903~24916
[27] Zhao L, Liu X, Wang T. Trajectory tracking control for double-joint manipulator systems driven by pneumatic artificial muscles based on a nonlinear extended state observer. Mechanical Systems and Signal Processing, 2019,122:307~320
[28] Zhao L, Li Q, Liu B, et al. Trajectory Tracking Control of a One Degree of Freedom Manipulator Based on a Switched Sliding Mode Controller With a Novel Extended State Observer Framework. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 2019,49(6):1110~1118
[29] Xu J, Li X, Xie Z, et al. Design and Analysis of Inductively Coupled Power Transfer System on Mooring Buoy With Double Ultracapacitor Chargers Using Indirect Control. IEEE Transactions on Industrial Electronics, 2020,67(6):4836~4845
[30]杨孝鸿,谭文斌,李醒飞,刘学海.基于梯度提升树的回转体测量系统误差补偿[J].组合机床与自动化加工技术,2020(05):27-30+35.
[31]李醒飞,韩佳辰,刘帆.基于Allan方差解耦自适应滤波的MHD/MEMS信号融合方法[J].中国惯性技术学报,2020,28(02):237-241.
[32]吴文韬,李醒飞,刘帆,徐冲柯.一种卫星微角振动高精度测量方法[J].航天器工程,2020,29(01):16-22.
[33]何嘉宁,钟莹,李醒飞.基于EMD-SVR的MEMS陀螺仪随机漂移多尺度预测(英文)[J].Journal of Measurement Science and Instrumentation,2020,11(03):290-296.
[34]刘家林,李醒飞,杨少波,李洪宇,徐佳毅.“浮星”自持式剖面浮标研究现状及进展[J].海洋技术学报,2019,38(06):17-23.
[35]房美琦,李醒飞,姜明波,杨少波,吴腾飞,徐佳毅.深海剖面浮标的RBF-PID定深控制[J].信息与控制,2019,48(06):641-648.
[36]徐冲柯,吴腾飞,杨凯丽,吴文韬,纪越,李醒飞.基于磁场调制的磁流体动力学角速度传感器[J].传感技术学报,2019,32(11):1640-1647.
[37]杨凯丽,吴腾飞,徐冲柯,张云,纪越,李醒飞.MHD角速度传感器微弱噪声的测量方法[J].传感技术学报,2019,32(11):1654-1660.
[38]董雪薇,钟莹,李醒飞.电磁场作用下磁流体在管道内的稳定流速研究[J].传感技术学报,2019,32(09):1419-1424.
[39]杨璐,李醒飞,纪越,拓卫晓,周政,吴腾飞.基于EMD-DFA-NLM的电涡流传感器信号去噪方法[J].传感技术学报,2019,32(09):1318-1323.
[40]房靖茹,钟莹,李醒飞.磁流体动力学动量轮导电流体运动特性研究[J].传感技术学报,2019,32(09):1412-1418.
[41]付丛丛,李醒飞,杨少波,李洪宇,谭文斌.海洋浮标感应耦合电能传输系统频率分裂特性及最大功率点分析[J].浙江大学学报(工学版),2020,54(03):475-482.
[42]张惠琳,李醒飞,杨少波,徐佳毅,李洪宇,王强.深海自持式智能浮标双闭环模糊PID定深控制[J].信息与控制,2019,48(02):202-208+216.
[43]张云,李醒飞,吴腾飞,刘帆,纪越,胡亚婷.MHD角速度传感器预处理电路的低噪声设计方法研究[J].传感技术学报,2018,31(07):1033-1039.
[44]周新力,李醒飞,吴腾飞,纪越.基于低通滤波器的MHD角速度传感器低频补偿算法(英文)[J].纳米技术与精密工程,2018,1(01):79-85.
[45]李醒飞,周新力,吴腾飞,纪越.一种MHD角速度传感器与MEMS陀螺仪组合测量系统信号融合的方法[J].天津大学学报(自然科学与工程技术版),2018,51(02):159-166.
[46]王鹏翔,郭敬滨,谭文斌,李醒飞.结合多模板的多域卷积神经网络视觉跟踪算法[J].红外技术,2018,40(01):47-54.
[47]何鑫,郭敬滨,吴建宾,李醒飞,田斌,钟莹,杨少波.基于时间序列的蒸发波导高度短期预测[J].电子测量与仪器学报,2018,32(01):103-110.
[48]吴超,钟莹,杨少波,何鑫,李醒飞.基于NPS模型的南海蒸发波导中尺度数值模拟研究[J].海洋科学,2017,41(08):134-141.
[49]焦君妍,李醒飞,赵建远.动力调谐陀螺仪全系统辨识[J].纳米技术与精密工程,2017,15(04):305-310.
[50]王南朔,李醒飞,房诚,肖霖玲.浮标水下传感器非接触供电及通讯系统设计[J].电源技术,2017,41(01):131-133+145.
[51]杨少波,李醒飞,吴建宾,钟莹.基于NPS蒸发波导预测模型的适应性研究[J].电子测量与仪器学报,2016,30(12):1899-1906.
[52]葛颂,李醒飞,董九志,王错.石英挠性加速度计中补偿环的优化设计[J].传感技术学报,2016,29(11):1678-1683.
[53]李珂,李醒飞,杨帆.IMM-UKF算法在两坐标雷达-光电融合跟踪系统中的改进与应用[J].激光与光电子学进展,2016,53(12):250-259.
[54]张起朋,李醒飞,谭文斌,陈诚.双轴倾角传感器姿态角测量的建模与标定[J].机械科学与技术,2016,35(07):1096-1101.
[55]谭文斌,张起鹏,李醒飞,张晨阳.θFXZ型测量机的回转轴线标定方法[J].机械科学与技术,2016,35(02):285-289.
[56]李醒飞,李立,寇科,吴腾飞,杨颖.全相位FFT时移相位差频谱校正分析及改进[J].天津大学学报(自然科学与工程技术版),2016,49(12):1290-1295.
[57]田凌子,李醒飞,赵建远,王亚辉.动力调谐陀螺仪系统辨识方法[J].计算机应用,2014,34(12):3641-3645.
专利情况
[1]李醒飞,钟莹,房靖茹. 一种磁流体动量轮的结构[P]. 天津市:CN211543942U,2020-09-22.
[2]李醒飞,刘阳,拓卫晓,高先富. 一种可保持音圈电机同心安装的电机工装[P]. 天津市:CN211557111U,2020-09-22.
[3]李醒飞,李川川,张彤,杨颖. 基于铯光泵磁力仪的激光稳频系统[P]. 天津市:CN210517325U,2020-05-12.
[4]李醒飞,翟胜,李洪宇,杨少波,徐佳毅. 检测浮标浮力调节系统的高压环境模拟试验台[P]. 天津市:CN210375734U,2020-04-21.
[5]李醒飞,何嘉宁,钟莹. 一种用于磁流体动量轮的磁路结构[P]. 天津市:CN210093097U,2020-02-18.
[6]李醒飞,王强. 深海自持式剖面智能浮标结构[P]. 天津市:CN208813456U,2019-05-03.
[7]李醒飞,夏赣民,刘帆,拓卫晓. 一种磁流体真空灌注装置[P]. 天津市:CN208537575U,2019-02-22.
[8]李醒飞,陈宗玉,凌林本. 一种悬丝式浮子支撑结构[P]. 天津市:CN208171285U,2018-11-30.
[9]李醒飞,王强. 深海浮力调节系统[P]. 天津:CN207955965U,2018-10-12.
[10]李醒飞,陈宗玉,凌林本,董九志. 一种高精度便携式海洋重力仪[P]. 天津:CN207946540U,2018-10-09.
[11]李醒飞,周政. 一种基于网络的远程教学实验系统[P]. 天津:CN207611533U,2018-07-13.
[12]李醒飞,吴腾飞,刘帆. 一种MHD角速度传感器动态噪声测量装置[P]. 天津:CN206975071U,2018-02-06.
[13]吴腾飞,李醒飞,刘帆. 一种MHD角速度传感器静态噪声测量装置及方法[P]. 天津:CN106950400A,2017-07-14.
[14]李醒飞,杨少波,阎姗姗,董九志. 基于空间十字挠性支撑结构的相对重力敏感装置[P]. 天津:CN206209130U,2017-05-31.
[15]李醒飞. 动力调谐陀螺仪再平衡回路的测控电路综合实验箱[P]. 天津:CN206194222U,2017-05-24.
[16]李醒飞,房诚,谢子铭,徐佳毅,肖霖玲. 适用于非接触电能和数据传输的新型系留缆[P]. 天津:CN205542358U,2016-08-31.
[17]李醒飞. 动力调谐陀螺仪再平衡回路的测控电路综合实验箱及方法[P]. 天津:CN105894923A,2016-08-24.
[18]吴腾飞,李醒飞,寇科,王错,李立. 一种基于激光自混合干涉的小型光学测头[P]. 天津:CN205505978U,2016-08-24.
[19]李醒飞,徐梦洁,梁思夏,王丽萍,张少强. 一种磁流体复合物角速度传感器[P]. 天津:CN203909058U,2014-10-29.
[20]李醒飞,徐梦洁,梁思夏,王丽萍,张少强. 磁流体复合物重力梯度仪[P]. 天津:CN203673083U,2014-06-25.
[21]李醒飞,徐梦洁,于翔,梁思夏,王丽萍. 适用于0-1KHz输入信号测量的磁流体陀螺[P]. 天津:CN203605947U,2014-05-21.
[22]李醒飞,徐梦洁,于翔,王丽萍,梁思夏. 一种磁流体陀螺[P]. 天津:CN203432587U,2014-02-12.
[23]李醒飞,陈诚,谭文斌,姚旺,张起朋. 多参数现场自动测量与分选系统[P]. 天津:CN203163692U,2013-08-28.
[24]李醒飞,刘冬,纪越. 多加速度计智能参数辨识、匹配与硬件生成系统[P]. 天津:CN203133115U,2013-08-14.
[25]李醒飞,谭文斌,陈诚,王星,姚旺. 一种多传感器联合标定方法[P]. 天津:CN102980542A,2013-03-20.
[26]李醒飞,杨光,孙建,赵建远,王佳. 陀螺仪硬件生成方法与装置[P]. 天津:CN102607598A,2012-07-25.
[27]李醒飞,杨颖,寇科,王错. 基于激光自混合干涉的石英挠性加速度计[P]. 天津:CN102520209A,2012-06-27.
[28]李醒飞,陈诚,谭文斌,黎春宇. 针对微小孔的接触式坐标测量机测针位置监控方法[P]. 天津:CN102338626A,2012-02-01.
[29]李醒飞,陈诚,谭文斌,董成军,吕津玮,李想. 双测头结构[P]. 天津:CN202101656U,2012-01-04.
