Personal Information
More >>Professor
Supervisor of Doctorate Candidates
Supervisor of Master's Candidates
Profile
郑玲,博士(后),教授,博士生导师。浙江平阳人。分别于1984年、1989年和2005年在重庆大学获学士、硕士和博士学位。2005.8-2007.8在美国马里兰大学机械工程系做博士后研究,2008.7 -2008.8在韩国仁荷大学机械工程系客座研究员,2009.1-2009.4在新加坡国立大学机械工程系客座研究员。郑玲教授主要从事振动/噪声控制理论及工程应用、智能网联汽车与自动驾驶的研究与开发。负责国家安全重大基础研究项目(973)、科技部重点研发计划、国家自然科学基金、重庆市智能网联汽车重大主题专项以及企业合作项目共计40余项。在国、内外学术期刊上发表SCI、EI论文150余篇。获发明专利授权20余,软件著作权3项,制定国际标准1项。2009年《车辆底盘系统动力学与控制关键理论及技术》获重庆市自然科学二等奖。2016年《汽车主被动安全关键技术研究与应用》获中国汽车工业科技进步一等奖。2019年《高声强模拟系统创新设计关键技术及应用》获中国振动工程学会科学技术一等奖。现任国际振动与噪声学会科学委员会委员、美国汽车工程师协会SAE会员、中国汽车工程学会高级会员、中国振动工程学会振动噪声控制专业委员会副主任委员、中国人工智能学会智能驾驶专业委员会委员、中国汽车工程学会悬架技术专业委员会委员、中国汽车工程学会图书出版专家委员会委员。担任教育部人才计划评审专家、国家奖评审专家以及国家留学基金委高水平大学交流计划评审专家。指导博硕士研究生100余人,其中获重庆市优秀博士论文1篇、重庆市优秀硕士论文1篇。重庆市智能汽车与动力学控制研究生导师团队1个。重庆大学智能网联汽车与智慧出行研究团队1个。
论文成果:
1)Jie Deng, Oriol Guasch, Laurent Maxit, Ling Zheng. Vibration of cylindrical shells with embedded annular acoustic black holes using the Rayleigh-Ritz method with Gaussian basis functions[J]. Mechanical Systems and Signal Processing, 2021, 150, 107225.
2)Jie Deng, Ling Zheng, Oriol Guasch. Elliptical acoustic black holes for flexural wave lensing in plates[J]. Applied Acoustics, 2021, 174, 107744.
3)Jie Deng, Oriol Guasch, Laurent Maxit, Ling Zheng. Transmission loss of plates with multiple embedded acoustic black holes using statistical modal energy distribution analysis[J]. Mechanical Systems and Signal Processing, 2021, 150, 107262.
4)Jie Deng, Oriol Guasch, Ling Zheng, Tingting Song, Yanshu Cao. Semi-analytical model of an acoustic black hole piezoelectric bimorph cantilever for energy harvesting[J]. Journal of Sound and Vibration, 2021, 115790.
5)Jie Deng, Oriol Guasch, Ling Zheng. Reconstructed Gaussian basis to characterize flexural wave collimation in plates with periodic arrays of annular acoustic black holes[J]. International Journal of Mechanical Sciences, 2021, 194, 106179.
6)Jie Deng, Oriol Guasch, Laurent Maxit, Ling Zheng. Annular acoustic black holes to reduce sound radiation from cylindrical shells[J]. Mechanical Systems and Signal Processing, 2021, 158, 107722.
7)Wei Yang, Ling Zheng*, Yinong Li, Yue Ren, Zhoubing Xiong, Automated Highway Driving Decision Considering Driver Characteristics [J] , IEEE Transactions on Intelligent Transportation Systems, 2020,21(6):2350-2360
8)Hang Wu, Ling Zheng, Yinong Li, Coupling effects in hub motor and optimization for active suspension system to improve the vehicle and the motor performance[J]. Journal of Sound and Vibration,2020,481(15),115426
9)Jie Deng, Oriol Guasch, Ling Zheng. A semi-analytical method for characterizing vibrations in circular beams with embedded acoustic black holes[J]. Journal of Sound and Vibration, 2020, 476, 115307.
10)Jie Deng, Oriol Guasch, Laurent Maxit, Ling Zheng. Reduction of Bloch-Floquet bending waves via annular acoustic black holes in periodically supported cylindrical shell structures[J]. Applied Acoustics, 2020, 169, 107424.
11)Hang Wu, Ling Zheng, Yinong Li, Robust Control for Active Suspension of Hub-Driven Electric Vehicle Subject to in-wheel Motor Magnetic Force Oscillation[J] Applied Sciences,2020,10(11):3929
12)Jie Deng, Ling Zheng, Pengyun Zeng, Yifang Zuo, Oriol Guasch. Passive constrained viscoelastic layers to improve the efficiency of truncated acoustic black holes in beams[J]. Mechanical Systems and Signal Processing, 2019, 118, 461-476.
13)Jie Deng, Ling Zheng, Oriol Guasch, Hang Wu, Pengyun Zeng, Yifang Zuo. Gaussian expansion for the vibration analysis of plates with multiple acoustic black holes indentations[J]. Mechanical Systems and Signal Processing, 2019, 131, 317-334.
14)Jie Deng, Oriol Guasch, Ling Zheng. Ring-shaped acoustic black holes for broadband vibration isolation in plates[J]. Journal of Sound and Vibration, 2019, 458, 109-122.
15)Pengyun Zeng, Ling Zheng, Jie Deng, Adel Elsabbagh, Shuhong Xiang, Tingfei Yan, Yao Wu, Flexural wave concentration in tapered cylindrical beams and wedge-like rectangular beams with power-law thickness[J]. Journal of Sound and Vibration, 2019,452:82-96
16)Zhe Li, Ling Zheng*,Wenyun Gao and Zhenfei Zhan. Electromechanical coupling mechanism and control strategy for in-wheel motor driven electric vehicles[J]. IEEE Transactions on Industrial Electronics.2019, 66(6): 4524-4533
17)Zhe Li, Ling Zheng*,Yue Ren, Yinong Li, Zhoubing Xiong. Multi-objective Optimization of Active Suspension System in Electric Vehicle with In-Wheel-Motor against the Negative Electromechanical Coupling Effects[J]. Mechanical Systems and Signal Processing. 2019, 116: 545-565.
18)Zhe Li, Ling Zheng. Integrated design of active suspension parameters for solving negative vibration effects of SR-IWM-EV base on MOPSO[J]. Journal of Vibration and Control. 2019, 25(3) :639–654
19)Ren Yue, Zheng Ling*, Yang Wei, Li Yinong. Potential field based hierarchical adaptive cruise control for semi-autonomous electric vehicle [J]. The Proc. IMechE, Part D: Journal of Automobile Engineering. 2019,233(10):2479-2491
20)Ren Yue, Zheng Ling*, Khajepour Amir, Integrated model predictive and torque vectoring control for path tracking of 4-wheel-driven autonomous vehicles [J]. IET Intelligent Transport System. 2018, 13(1):98-107
21)Sun W., Li Y.*, Huang J., Zhang N., Efficiency improvement of vehicle active suspension based on multi-objective integrated optimization[J],Journal of Vibration and Control, 2017.23(43):6-7
专利成果:
1)软件著作权,郑玲,杨威,杜文豪,梁家恺,半自动泊车控制系统,2018SR608400
2)发明专利,侧方位泊车控制系统及其控制方法,郑玲,杨威,杜文豪,梁家恺,任玥,李以农,
ZL20180643301.4
3)发明专利,郑玲,杨威,梁家恺,杜文豪,张翔,李以农,基于超声波测距雷达的车位检测方
法,ZL201810990629.3
4)发明专利,基于模糊C均值聚类算法的驾驶员驾驶风格分类方法,郑玲,杨威,周孝吉,倪涛,
李以农,ZL201810968634.4
5)发明专利.基于摄像头与毫米波雷达的多特征融合车辆检测方法,刘梓林,黎予生,熊周兵,郑
玲,李涛,ZL201710198365.3
6)发明专利.郑玲,杨威,任玥,李以农,黎予生,熊周兵,一种垂直自动泊车路径规划方法及系
统,ZL201710200861.8
7)发明专利.郑玲,任玥,杨威,李以农,黎予生,熊周兵,多摄像头适配的车载视觉感知系统,
ZL201710193302.9
8)发明专利. 郑玲、彭冲、杨超、李以农、任玥、胡一明、韩桂忠,一种主动轮内直线电机式减振
器,ZL201510046169.5
9)发明专利.郑玲,姜雨含,刘巧斌,犹佐龙,李行健,半主动悬置幅变动特性建模方法,
ZL201610906151.2
10)发明专利. 郑玲,犹佐龙,刘巧斌,姜雨含,李行健,一种半主动悬置参数辨识方
法,ZL201610906151.2
11)发明专利,郑玲, 李以农, 刘非,周忠永、王戡. 汽车悬架系统磁流变减振器
ZL201110232851.5
获奖信息:
1) 车辆底盘系统动力学与控制关键理论及技术,重庆市自然科学二等奖
2) 汽车主被动安全关键技术研究与应用,中国汽车工业科技进步一等奖
3)高声强模拟系统创新设计关键技术及应用,中国振动工程学会科学技术一等奖