不息时势hongkongdoll 露脸

通信地址：福建省福州市福州大学城乌龙江北大路2号邮编:350116

电子邮箱：yaolei@fzu.edu.cn

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电话：0591-22866791

西宾使命履历

2010/09-2013/07，中国科学院大学长春光学精密机械与物理权术所，博士

2007/09-2010/04，长春理工大学，机电工程学院，硕士

2003/09-2007/09，长春理工大学，机电工程学院，本科

2013/08-于今，福州大学，机械工程及自动化学院，机械打算系力学课题组

2018/12-2019/12新加坡国立大学，淡马锡国度践诺室，侦察学者

主授课程：材料力学A、材力力学C、装备力学基础（下）

社会兼职

1福建省力学学会理事

权术边界（权术课题）

1多旋翼袖珍无东谈主机（SUAV）空气能源学及甘休

主执科研技俩

1国度当然科学基金，非平面式多旋翼系统气动布局优化及可修正抵偿的甘休技艺权术，2016.1-2018.12

2省西宾厅技俩，新式非平面式六旋翼漂荡器能源学建模与气动特点分析，2015.10-2017.12

3校东谈主才育苗基金技俩，新式非平面双旋翼单位空气能源学权术，2014.06-2016.07

4科研驱动基金技俩，新式HEX-ROTOR无东谈主机旋翼系统能源学权术，2013.10-2016.10

代表性论著

期刊论文：

[1]Yao Lei, Hengda Wang. aerodynamic performance of a quadrotor mav considering the horizontal wind. IEEE Access, VOLUME 8, 2020: 109421-109428. (SCI)

[2]Yao Lei, Hengda Wang. Aerodynamic optimization of a micro quadrotor aircraft with different rotor spacings in hover. Appl. Sci. 2020, 10(4), 1272. (SCI)

[3]Yao Lei, Mingxin Cheng. Aerodynamic Performance of a Hex-rotor UAV with different rotor spacing. Measurement and control 2020 1-8. (SCI)

[4]Yao Lei, Mingxin Cheng. Aerodynamic Performance of Hex-Rotor UAV Considering the Horizontal Airflow. Appl. Sci. 2019, 9(22), 4797. (SCI)

[5]Yao Lei, Rongzhao Lin. Effect of wind disturbance on the aerodynamic performance of coaxial rotors during hovering. Measurement and control, 2019. (SCI)

[6]Yao Lei, Jinli Wang. Aerodynamic Performance of Quadrotor UAV with Non-Planar Rotors. Appl. Sci. 2019, 9(14), 2779. (SCI)

[7]Yao Lei, Xiaoming Li, and Lizhong Zhang. Experimental Study on PAT System for Long-Distance Laser Communications Between Fixed-Wing Aircrafts. Photonic Sensors, 2019,9(2):170-178. (SCI)

[8]Yao Lei, JinliWang and Lizhong Zhang. Full-scale Measurement on Vibration Performance of Vehicle-Mounted Optical Transceiver Mast. Measurement and Controlhongkongdoll 露脸, 2018, Vol. 51(9-10) 453–459. (SCI)

[9]Yao Lei, Yue Bai, Zhijun Xu. Sensor-based inspection of the formation accuracy in ultra-precision grinding (UPG) of Aspheric Surface considering the chatter vibration. PHOTONIC SENSORS, 2018, 8(2): 97‒102. (SCI)

[10]Yao Lei, Yuxia Ji and Changwei Wang. Optimization of aerodynamic performance for co-axial rotors with different rotor spacings. International Journal of Micro Air Vehicles, 2018, 10(4):362-369. (SCI)

[11]Yao Lei, Yuxia Ji, Changwei Wang, Yue Bai, Zhijun Xu. Full-scale measurement on the aerodynamics of non-planar rotor pairs in a Hexacopter. Journal of Mechanisms and Robotics, 2017,9(6), 064502. (SCI)

[12]Yao Lei, Yue Bai, Zhijun Xu. Wind Effect on Aerodynamic Optimization for Non-planar Rotor Pairs Using Full-scale Measurements. Journal of intelligent & robotic systems, 2017, 87 (3), 615-626. (SCI)

[13]Yao Lei, Yue Bai, Zhijun Xu. An Experimental Investigation on Aerodynamic Performance of a Coaxial Rotor System with Different Rotor Spacing and Wind Speed. Experimental thermal and fluid science, 2013, 44 (C), 779-785. (SCI)

[14]Yao Lei, Zhijun Xu, Lizhong Zhang, Lixin Meng. An Environmentally-flexible Measurement System for Ammunition Temperature Detection in the Powder Chamber with High Accuracy. Measurement, 2012, 45 (8), 2021-2028. (SCI)

[15]Yao Lei, Zhijun Xu, Lizhong Zhang. Experimental Study on Thermal Uniformity of Optical Transmitter and Receiver on Near Space. Experimental thermal and fluid science, 2011, 35 (7), 1463-1472. (SCI)

[16]雷瑶，叶艺强，王恒达.共轴双旋翼单位不同旋翼间距的气动性能分析.机械打算与制造，2020. (CSCD)

[17]雷瑶，王恒达，叶艺强，黄宇晖.微型四旋翼漂荡器最好翼间距布局权术.推测力学学报，2020,37(4):412-416. (CSCD)

[18]雷瑶，吴智泉，汪长炜，纪玉霞.共轴八旋翼漂荡器气动特点三维数值模拟分析.福州大学学报，2019，47(2): 218-222. (CSCD)

[19]雷瑶，林荣钊,吴智泉.袖珍多旋翼漂荡器悬停成果分析.兵工学报，2019，40(6): 1323-1328. (EI)

[20]雷瑶，纪玉霞.袖珍共轴旋翼当然来流下的抗风扰气动特点分析.兵工学报，2018，39 (6) :1225-1232. (EI)

[21 ]雷瑶，纪玉霞，汪长炜.袖珍旋翼气动特点权术.机床与液压，2018，46（17）：61-75. (CSCD)

[22]雷瑶,汪长炜,纪玉霞.虹吸管谈内流场数值模拟权术及分析.推测力学学报，2018，2018,35(6):777-781. (CSCD)

[23]雷瑶，汪长炜，纪玉霞.虹吸管谈气液两相流数值模拟.当代制造工程.2018, 12:6-10. (CSCD)

[24]雷瑶,纪玉霞,汪长炜.微型共轴双旋翼气动性能数值模拟与锻真金不怕火分析.践诺流膂力学,2017,31(5):67-73. (CSCD)

会论说文：

[1]Yao Lei, Yuxia Ji, Changwei Wang, Yue Bai, Zhijun Xu. Aerodynamic design on the non-planar rotor system of a multi-rotor flying robot (MFR). 2017 IEEE 3rd International Symposium in Robotics and Manufacturing Automation (ROMA), 2017:1-5. (EI)

[2]Yao Lei, Yuxia Ji, Changwei Wang. Numerical simulation and experimental validation of small rotor aerodynamics. Proceeding of the 2016 international conference on mechatronics engineering and information technology (ICMEIT),2016: 137-145.（ISTP）

[3]Yao Lei, Changwei Wang, Yuxia Ji. Simulation study of two-phase flow in the siphon pipeline. Advanced mechanical science and technology for industrial revolution 4.0, proceedings of the 1st FZU-OPU-NTOU joint symposium. Dec. 2016.

[4]Yao Lei, Zhijun Xu, Wenbo Tang. BP Algorithm of ANN Applied in Temperature Control Tests with MATLAB. 2011 International Conference on Computer and Automation Engineering (ICCAE 2011) IPCSIT vol. 44 (2012) IACSIT Press, Singapore.

[5] Lixin Meng, Lizhong Zhang, Tie Chi andYao Lei. Research of Gun Muzzle Offset Measuring Method. Proceedings of the 2009 IEEE International Conference on Mechatronics and Automation August 9 - 12, Changchun, China.

专利：

1智能清堵器（发明专利）ZL201510397070.X

2一种将Y轴电机外置式的XY快速转移平台（发明专利）ZL201810165711.2

3可自动宽解的单晶硅棒料夹执机构偏激使命技艺（发明专利）ZL201710967406.0

4无东谈主机保护安设（实用新式）ZL201720065380.6

5多角度可调遣漂荡机器东谈主（实用新式）ZL201720064971.1

6一种抗干豫的非平面漂荡器（实用新式） ZL201720577138.7

7可变角度共轴倾转八旋翼漂荡机器东谈主（实用新式）ZL201721169009.0

8共轴倾转式旋翼气动性能测试平台（实用新式）ZL201720321816.3

9一种重载超低限位剪叉式液压升降机（实用新式） ZL201721321355.6 8

10一种内偏转式非平面六旋翼漂荡器（实用新式）ZL201721717187.2

11一种非平面式八旋翼全向漂荡器（实用新式） ZL201721888513.6

12一种导轨丝杠（实用新式）中华东谈主民共和国 ZL201820284055.3

13一种适用于窄小空间的高续航才智漂荡器（实用新式）ZL201820336844.7

14用于高精度的传感器保护安设（实用新式） ZL201820360779.1

15袖珍家用汽车横向转移泊车安设(实用新式) ZL201820361766.6

16一种非平面式三旋翼漂荡器（实用新式） ZL201820788522.6 2018.12.4

17空间密排多面体墙体结构（实用新式） ZL201820360792.7 2018.12.4

18新式健身漂荡器（实用新式）ZL201822096408.X

19一种可在垂直墙体栖息和升空的四旋翼漂荡器（实用新式）ZL201920520082.0

20一种双轴歪斜四旋翼漂荡器（实用新式）ZL201920653997.9

21一种复合式漂荡器（实用新式）ZL2019207360400

22一种倾转双旋翼自动悬停T型无东谈主机（实用新式）ZL2019209955603

23可自动宽解的单晶硅棒料夹执机构（实用新式）ZL201721334301.3

获奖情况

1、2018年度福州大学福能奖教金

2、2016年度机械工程及自动化学院‘我心目中的好结识’

其他

1第四届“中海创福州大学专项立异资金”学生科技立异资助技俩指令教师

2智能清堵器福州大学科研锻练小组SRTP指令结识

3破灭式尿素拆包器福州大学科研锻练小组SRTP指令结识

4灰斗在线松灰安设第九届福建省大学期望械立异竞赛二等奖指令结识.

5尿素自动拆包出料安设第九届福建省大学期望械立异竞赛三等奖指令结识.

6湿式电除尘喷嘴在线清堵安设第九届福建省大学期望械立异竞赛二等奖指令结识.

7尿素自动拆包出料安设第九届福建省大学期望械立异竞赛三等奖指令结识.hongkongdoll 露脸