韩宁

发布者:王小仟发布时间:2018-04-23浏览次数:16392

职称:副教授/博导

办公室:四牌楼健雄院311

办公电话:025-83794074

Emailhanning@seu.edu.cn

学习经历:

2000/09-2004/06月,   南京大学,  本科

2004/09-2009/06月,   南京大学,  博士

工作经历:

2004/11-2005/09月,   香港理工大学,进修,研究助理

2006/07-2007/05月,   香港理工大学,进修,研究助理

2009/10-2010/10月,   香港大学,工作,博士后

2010/11-2012/11月,   南京大学,工作,博士后

2012/11-今,             yl23455永利官网,工作

教授课程:

本科生课程,数字信号处理——大三,秋季

硕士生课程,声学原理——研一,秋季,春季

研究方向:

1、海洋信息处理:目标回波信号的特征增强与提取、分类与识别等

2、阵列信号处理:波束形成与DOA估计,目标检测、空间域滤波等

3、有源声场控制:固定与自适应控制,有源降噪与通透技术等

获奖情况:

教育部科技进步奖一等奖2017排名第六

论文著作:

[1] Han N. and Yao S., Discrimination of   the active submerged/bottom target based on the total scintillation index, Applied Acoustics, 2021, 172: 107646. (SCI)

[2] Han N., Active control of the   scattered radiation with a reflecting surface, Noise Control Engineering Journal, 2019, 67 (3): 190~196. (SCI)

[3] Han N., Fan Z. H. and Fang S. L.,   Phase unwrapping methods for solving the ambiguity in current velocity   estimation based on combined signal design, Flow Measurement & Instrumentation, 2018, 59: 126~134. (SCI)

[4] Han N. and Fang S. L., Investigation of performance   improvements for active reflection control system through 2D time-domain   simulation, Building and   Environment, 2015, 94 (2):   867~872. (SCI)

[5] Han N. and Fang S. L., A combined pulse   modulation-processing method for ADCP applications, Flow Measurement and Instrumentation,   2015, 45: 78~81. (SCI)

[6] Han N. and Tao J. C., Unidirectional   acoustic boundary through active control system in one dimensional duct, Noise Control Engineering Journal,   2015, 63 (5): 388~395. (SCI)

[7] Han N. and Wang C. Q., Time-Domain   Simulation for Active Noise Control In a Two Dimensional Duct, Noise Control Engineering Journal,   2015, 63 (1): 59~71. (SCI)

[8] Han N.,Qiu X. J. and Feng S. Z.,   Active control of three-dimension impulsive scattered radiation based on a   prediction method, Mechanical Systems   and Signal Processing, 2012, 30:   267-273. (SCI)

[9] Han N., Feng S. Z. and Qiu   X. J., Active control of one-dimension impulsive reflection based on a   prediction method, Journal of the Acoustical Society of America, 2010,   127: 1193-1196. (SCI)

[10] Han N.,   Qiu X. J. and Mak C.M., A further study of the prediction method for   aerodynamic sound produced by two in-duct elements, Journal of Sound and   Vibration, 2006, 294: 374-380.   (SCI)

[11] Han N. and Qiu X. J., A study   of sound intensity control for active noise barriers, Applied Acoustics,   2007, 68: 1297-1306. (SCI)

[12] Han N.   and Mak C.M., Prediction of flow-generated noise produced by acoustic and   aerodynamic interactions of multiple in-duct elements, Applied Acoustics,   2008, 69: 566-573. (SCI)

[13] Han N.   and Mak C.M., Prediction of the absorption exponent in rectangular enclosures   with a single absorbent boundary, Applied Acoustics, 2009, 70: 297-299. (SCI)

[14] Han N. and Mak C.M., Improving speech intelligibility in   classrooms through the mirror image model, Applied Acoustics, 2008, 69: 945-950. (SCI)

[15] Han N.   and Mak C.M., A further study of a mathematical model for a screen in   open-plan offices, Applied Acoustics,2008, 69: 1114-1119. (SCI)

[16] Han N. and Huang S. X., Velocity   Estimation Based on the Broadband Acoustic Signal, International   Congress on Noise Control Engineering (INTER-NOISE 2018), August 26-29, 2018,   Chicago, USA. (EI)

[17] Han N. and Yao S., DOA estimation   through isosceles trapezoidal array, International Congress on Noise Control   Engineering (INTER-NOISE 2016), August 21-24, 2016, Hamburg, Germany. (EI)

[18] Han N. and Tao J. C., Unidirectional   acoustic boundary through active control system in one-dimensional duct, 22nd   International Congress on Sound and Vibration, July 12-16, 2015, Florence,   Italy. (EI)

[19] Han N. and Tao J. C., One-dimensional   unidirectional acoustic boundary through active control method,   43rd International Congress on Noise Control Engineering, November 16-19,   2014, Melbourne, Australia. (EI)

[20] Han N.   and Qiu X. J., Active control on the scattered radiation by a rigid surface,   163rd ASA, 11th WESPAC, 9th ASC, May 13-18, 2012, Hong Kong, China.

[21] Han N., Mak C.M. and X. J. Qiu, A   study of improving speech intelligibility in Classrooms, 19th International Congress   on Acoustics, 2007, Madrid, Spain.

[22] Han N. and Qiu X. J., Acoustic   intensity control for increasing the insertion loss of noise barrier, 9th   Western Pacific Acoustics Conference, 2006, Seoul, Korea.

科研项目:

项目名称

项目类别

项目时间

复杂环境中的虚拟误差技术研究

应用研究项目

2022.09-2024.09

特征提取置前的主动目标检测方法研究

国家自然科学基金项目

2019.01-2022.12

目标分类技术研究

预先研究项目

2018.01-2020.12

探测与分类技术研究

预先研究项目

2015.07-2015.12

基于换能器阵列的单向声边界的研究

国家自然科学基金项目

2012.01-2014.12

近期专利:

专利号

专利名称

专利类型

ZL202011278977.1

一种提高主动目标检测信噪比的方法

发明专利授权

ZL201910425353.9

一种一维声场条件下的反射声有源控制方法

发明专利授权

ZL201911111177.8

一种用于水底目标判别的波动指数计算方法

发明专利授权

ZL201811247815.4

一种非自由场条件下的散射声有源控制方法

发明专利授权

ZL201810840517.X

一种基于反射模型的变速度目标的回波信号仿真方法

发明专利授权

ZL201810250668.X

一种基于拷贝信号分段的匹配滤波计算方法

发明专利授权

ZL201610248569.9

一种基于等腰梯形接收阵的减小测向多值问题的方法

发明专利授权

ZL201410191835.X

有源单向声传播装置及实现单向声传播的方法

发明专利授权