王文旭
职称:教授
研究领域 :复杂性科学、行为决策和脑科学交叉
电话:58807084
通讯地址:北京师范大学,科技楼B517
邮编:100875
电子邮件:wenxuwang@bnu.edu.cn
课题组网址:http://sss.bnu.edu.cn/~wenxuw

  • 简 介
  • 研究方向
  • 研究人员
  • 论文成果
  • 图片
王文旭,教授,主要从事复杂系统、群体行为和脑科学方面的交叉科学研究,系统地研究了决策过程中的博弈和非理性行为,提出了基于压缩感知理论的复杂系统重构方法、复杂非线性系统的可控性理论、复杂系统的临界现象和同步行为等。研究成果发表于Nature CommunicationsProc. Natl. Acad. Sci. USAPhysics ReportsPhysical Review LettersPhysical Review XJournal of Royal Society Interface等期刊,共发表论文120余篇,成果被SCI他引4000余次,其中4篇入选ESI(1%)高被引论文,10篇论文被引用超过100次,个人H指数35。获得教育部自然科学一等奖一项,主持国家自然科学基金重点项目一项。2012年入选第二批青年千人计划、2015年入选北京市科技新星,201420152016连续三年入选Elsevier中国高被引学者。担任Scientific ReportsRoyal Society Open ScienceFrontiers of Computer Science等期刊编委,担任Nature CommunicationsPhysical Review Letters等30 多个学术期刊审稿人。

目前主要的研究领域:(i)与神经退行性疾病相关的科学问题,包括老年痴呆症的早期诊断和干预、基因风险、空间编码和导航能力受损、行为特征与脑损伤之间的因果关系等;(ii)决策行为的神经机制和无创干预,包括非理性决策行为的神经功能环路、合作和利他行为的神经机制、无创神经干预方法引导决策行为等。
 
 
代表性论文(*为通讯作者)
1.      X.-Y. Yan, W.-X. Wang*, Z.-Y. Gao*, and Y.-C. Lai*, "Universal model of individual and population mobility on diverse spatial scales", Nature Communications 8, 1639 (2017). Research highlights:
https://www.sciencedaily.com/releases/2017/11/171121095158.htm
https://phys.org/news/2017-11-human-mobility-scalability-requires.html http://www.sciencenewsline.com/news/2017112115580015.html http://www.nsfc.gov.cn/publish/portal0/tab434/info72105.htm
2.       R. Li, L. Dong, J. Zhang*, X. Wang, W.-X. Wang*, Z. Di, and H. E. Stanley*, "Simple spatial scaling rules behind complex cities", Nature Communications 8, 1841 (2017).
3.       B. Podobnik*, M. Jusup, Z. Tiganj, W.-X. Wang, J. M. Buldu, and H. E. Stanley*, “Biological conservation law as an emerging functionality in dynamical neuronal networks”, Proc. Natl. Acad. Sci. USA 114, 11826-11831 (2017).
4.       X. Han, S. Cao, Z. Shen, B. Zhang*, W.-X. Wang*, R. Cressman, and H. E. Stanley*, “Emergence of Communities and Diversity in Social Networks”, Proc. Natl. Acad. Sci. USA 114, 2887-2891 (2017).
5.       W.-X. Wang, Y.-C. Lai*, and C. Grebogi, “Data Based Identification and Prediction of Nonlinear and Complex Dynamical Systems”, Physics Reports 664, 1 (2016).
6.       Z. Shen, W.-X. Wang*, Y. Fan, Z. Di, and Y.-C. Lai, “Reconstructing propagation networks with natural diversity and identifying hidden sources”, Nature Communications 5, 4323 (2014). 
7.       Z. Yuan, C. Zhao, Z. Di, W.-X. Wang*, and Y.-C. Lai, “Exact controllability of complex networks”, Nature Communications 4, 2447 (2013).
8.       Le-Zhi Wang, Ri-Qi Su, Zi-Gang Huang, Xiao Wang, Wen-Xu Wang, Celso Grebogi, and Ying-Cheng Lai*, “A geometrical approach to control and controllability of nonlinear dynamical networks”, Nature Communications 7, 11323 (2016).
9.       X. Han, Z. Shen, W.-X. Wang*, and Z. Di, “Robust reconstruction of complex networks from sparse data”, Phys. Rev. Lett. 114, 028701 (2015).
10.   X.-Y. Yan, C. Zhao, Y. Fan, Z. Di, and W.-X. Wang*, “Universal predictability of mobility patterns in cities”, J. R. Soc. Interface 11, 20140834 (2014). (cover paper.)
11.   W.-X. Wang*, R. Yang*, Y.-C. Lai, V. Kovanis, and C. Grebogi, “Predicting Catastrophes in Nonlinear Dynamical Systems by Compressive Sensing”, Phys. Rev. Lett. 106, 154101 (2011).
12.   W.-X. Wang*, Y.-C. Lai, C. Grebogi, and J.-P. Ye, “Network Reconstruction Based on Evolutionary-Game Data via Compressive Sensing”, Phys. Rev. X 1, 021021 (2011).
13.   J. Ren*, W.-X. Wang, B. Li and Y.-C. Lai, “Noise bridges dynamical correlation and topology in coupled oscillator networks”, Phys. Rev. Lett. 104, 058701 (2010).
14.   W.-X. Wang, B.-H. Wang*, B. Hu, G. Yan, and Q. Ou, “General dynamics of topology and traffic on weighted technological networks”, Phys. Rev. Lett. 94, 188702 (2005).