张晓旭

  

   职称:青年副研究员,硕士生导师

   Email: zhangxiaoxu@fudan.edu.cn







个人简介

博士,复旦大学青年副研究员。20097月获复旦大学理论与应用力学专业理学学士学位;20127月获复旦大学工程力学专业理学硕士学位;20173月获同济大学力学专业工学博士学位;20175月至20185月,悉尼科技大学博士后。

主持科研项目1项,项目来源为同济大学博士研究生学术新人奖(2013-2014)。参与科研项目2项,含悉尼科技大学Blue Sky Research Scheme项目1项(2017-2018)、国家自然科学基金面上项目(2016-20191项(2016-2019)。迄今已在《Nonlinear Dynamics》、《IEEE Transactions on Signal Processing》等高水平学术期刊上发表论文11篇,其中SCI论文6篇,ISTP论文1篇,EI论文4篇。以第一作者身份撰写《Time Delay Systems: Theory, Numerics, Applications, and Experiments》专著章节1篇。



研究方向

主要研究方向是受控结构的时滞和非线性参数辨识,专长非线性动力学、数字信号处理和基于时滞调控技术的主动控制。研究成果主要有受控系统时滞和非线性结构参数辨识方法、噪声自适应修正参数辨识理论、智能蒙皮吸波和透波主动调控技术等。



学术成果

期刊论文

 1.张晓旭, Xu, J., and Ji, J.C., 2018. Modelling and Tuning for the Time-delayed Vibration Absorber with Friction. Journal of Sound and Vibration, 424, pp. 137-157. (SCI)

 2.张晓旭, Xu, J., 2018. An extended synchronization method to identify slowly time-varying parameters in nonlinear systems. IEEE Transactions on Signal Processing, 66 (2), pp. 438-448. (SCI)

 3.张晓旭, Xu, J., 2017. A noise correction embedded identification approach for delays and parameters in nonlinear delay systems. Procedia IUTAM, 22, pp.67-74. (ISTP)

 4.张晓旭, Xu, J. and Feng, Z., 2017. Nonlinear equivalent model and its identification for a delayed absorber with magnetic action using distorted measurement. Nonlinear Dynamics, 88(2), pp. 937-954. (SCI)

 5.张晓旭, Xu, J., 2016. Time delay identifiability and estimation for the delayed linear system with incomplete measurement. Journal of Sound and Vibration, 361, pp.330-340. (SCI)

 6.张晓旭, Xu, J., 2015. Identification of time delay in nonlinear systems with delayed feedback control. Journal of the Franklin Institute, 352(8), pp.2987-2998. (SCI)

 7.张晓旭, XU, J. and HUANG, Y., 2015. Experiment on Parameter identification of a Time Delayed Vibration Absorber. IFAC-PapersOnLine, 48(12), pp.57-62. (EI)

 8.张晓旭, XU, J., ZHANG, S. and HUANG, Y., 2015. Experiment on Parameter Identification of a Time Delay Coupled Nonlinear System. IFAC-PapersOnLine, 48(11), pp.694-699. (EI)

 9.张呈波,张晓旭,宋汉文, 2013.一类具有非对称特性的隔振装置结构参数实验辨识方法.振动与冲击, 32(6), pp.18-23. (EI)

 10.张晓旭, Chen, L. and Song, H., 2011. Self-contained eigenvector algorithm applied to the identification of aerodynamic derivatives of bridge model. Science China Technological Sciences, 54(5), pp.1134-1140. (SCI)

 11.张晓旭,陈力奋,宋汉文, 2009.桥梁节段模型实验的组合正弦激励方法.振动与冲击, 28(12), pp.136-139. (EI)


专著章节:

 1.张晓旭, Xu, J., 2017. Time-Delay Identification for Linear Systems: A Practical Method Using the Frequency Response Function. Time Delay Systems: Theory, Numerics, Applications, and Experiments (pp. 333-348). Springer International Publishing.


国际学术会议:

 1.张晓旭, Jian Xu. A noise correction embedded identification approach for delays and parameters in nonlinear delay systems. IUTAM Symposium on Nonlinear and Delayed Dynamics of Mechatronic Systems, Nanjing, China, October 17- 21, 2016. (大会报告)

 2.张晓旭, Jian Xu and Yu Huang. Experiment on parameter identification of a time delay coupled linear system. The 12th Annual IFAC Workshop on Time Delay Systems, Ann Arbor, Michigan, USA, June 28-30, 2015.(分组报告)

 3.张晓旭, Jian Xu, Shu Zhang and Yu Huang. Experiment on parameter identification of a time delay coupled nonlinear system. The 1st IFAC Conference on Modelling, Identification and Control of Nonlinear Systems, Saint Petersburg, Russia, June 24-26, 2015.(分组报告)

 4.张晓旭, Jian Xu. Parameter identification of time-delay coupled nonlinear dynamic systems based on incremental harmonic balance method. The 4th International Conference on Dynamics, Vibration and Control, Shanghai, China, Aug. 23-25, 2014.(分组报告)

 5.张晓旭, Jian Xu, Yu Huang. Parameter identification of nonlinear dynamic systems with time-delayed feedback control. The 11th International Conference on Vibration Problems, Lisbon, Portugal, Sept. 9-12, 2013.(分组报告)

 6.张晓旭, Chen Lifen, Song Hanwen. Left and right eigenvector algorithm applied to the identification of aerodynamic derivatives of bridge model. The 3rd International Conference on Dynamics, Vibration and Control, Hangzhou, China, May 12-14, 2010.(分组报告)