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王圣军
2023-05-13 08:06
  • 王圣军
  • 王圣军 - 教授-陕西师范大学-物理学与信息技术学院-个人资料

近期热点

资料介绍

个人简历


教育经历
2004/09–2009/06,兰州大学,物理科学与技术学院,博士
2000/09–2004/06,兰州大学,物理科学与技术学院,学士
研究工作经历
2011/10–现在,陕西师范大学,物理学与信息技术学院
2009/07–2011/10,香港浸会大学,非线性研究中心,博士后
2008/07–2008/09,香港城市大学,混沌与复杂网络研究中心,研究助理
讲授课程
2019春:计算物理
2018春:模拟物理             2018秋:计算物理,非线性动力学导论
2017春:非线性科学概论         2017秋:带实习
2016春: 非线性科学概论          2016秋:非线性动力学导论,模拟物理
2015春: 非线性科学概论,模拟物理    2015秋: 非线性动力学导论,模拟物理
2014春:模拟物理            2014秋:模拟物理
2013春:模拟物理            2013秋:模拟物理,电动力学II
2012秋:电动力学II,非线性动力学

研究领域


统计物理与复杂系统,自组织临界态,神经网络的临界性,地震模型中的临界性,复杂网络上的临界态。
非线性动力学,神经网络动力学,Hopfield 吸引子网络。""

近期论文


31. Bin-Quan Li, and Sheng-Jun Wang, Criticality of the nonconservative earthquake model on random spatial networks. Phys. Rev. E 98, 012309 (2018).
30. Lin Zhou, and Sheng-Jun Wang, Fractal Aggregates on Geometric Graphs. Fractals, Vol. 26, No. 3 (2018) 1850038
29. Bin-Quan Li, and Sheng-Jun Wang, Self-Organized Criticality in an Anisotropic Earthquake Model. Commun. Theor. Phys. 69 (2018) 280–284
28. Yuhan Chen, Shengjun Wang, Claus C. Hilgetag, and Changsong Zhou, Features of spatial and functional segregation and integration of the primate connectome revealed by trade-off between wiring cost and efficiency. PLoS Comput Biol 13(9): e1005776.
27. Sheng-Jun Wang, and Zhou Yang, Effect of similarity between patterns in associative memory. Phys. Rev. E 95, 012309 (2017).
26. Sheng-Jun Wang, Ru-Hai Du, Tao Jin, Xing-Sen Wu, and Shi-Xian Qu. Synchronous slowing down in coupled logistic maps via random network topology. Scientific Reports 6:23448 (2016).
25. Sheng-Jun Wang, Guang Ouyang, Jing Guang, Mingsha Zhang, K. Y. Michael Wong, and Changsong Zhou. Stochastic Oscillation in Self-Organized Critical States of Small Systems: Sensitive Resting State in Neural Systems. Phys. Rev. Lett. 116, 018101 (2016).
24. Jing Qu, Sheng-Jun Wang, Marko Jusup, and Zhen Wang. Effects of random rewiring on the degree correlation of scale-free networks. Scientific Reports 5:15450 (2015). (通讯作者)
23. Qu Jing, Wang Sheng-Jun. Disassortative networks generated by directed rewiring. Acta Physica Sinica 64, 198901 (2015). (通讯作者)
22. Hu Yao-Guang, Wang Sheng-Jun, Jin Tao and Qu Shi-Xian, Biased random walks in the scale-free networks with the disassortative degree correlation. Acta Physica Sinica 64, 028901 (2015).
21. YANG Yan-Jin, DU Ru-Hai, WANG Sheng-Jun, JIN Tao and QU Shi-Xian. Change of State of a Dynamical Unit in the Transition of Coherence. CHIN. PHYS. LETT. 32, 010502 (2015) .
20. Sheng-Jun Wang, Zhen Wang, Tao Jin and Stefano Boccaletti, Emergence of disassortative mixing from pruning nodes in growing scale-free networks, Scientific Reports 4, 7536 (2014). (通讯作者)
19. Sheng-Jun Wang, Zi-Gang Huang, Xin-Jian Xu and Ying-Hai Wang, Sparse connection density underlies the maximal functional difference between random and scale-free networks, Eur. Phys. J. B 86, 424 (2013). (通讯作者)
18. Yuhan Chen, Sheng-Jun Wang, Claus C. Hilgetag, and Changsong Zhou, Trade-off between Multiple Constraints Enables Simultaneous Formation of Modules and Hubs in Neural Systems, PLoS Comput. Biol. 9(3): e1002937 (2013).
17. Sheng-Jun Wang, Changsong Zhou, Hierarchical modular structure enhances the robustness of self-organized criticality in neural networks, New J. Phys.14, 023005 (2012). (本文章被选入New Journal of Physics 2012年度研究亮点。)
16. Sheng-Jun Wang, Claus C. Hilgetag, and Changsong Zhou, Sustained activity on hierarchical modular neural networks: self-organized criticality and oscillations, Front. Comput. Neurosci. 5, 30 (2011).
15. Sheng-Jun Wang, Zhi-Xi Wu, Hai-Rong Dong, and Guanrong Chen, Undetermination of the relation between network synchronizability and betweenness centrality, Chin. Phys. B 20, 048903 (2011).
14. Jin-Tu Sun, Sheng-Jun Wang, Zi-Gang Huang, Lei Yang, Younghae Do and Ying-Hai Wang, Effect of information transmission on cooperative behavior, New J. Phys. 12, 063034 (2010).
13. Sheng-Jun Wang, Zhi-Xi Wu, Hai-Rong Dong, and Guanrong Chen, Enhancing the synchronizability of scale-free networks by adding edges, Int. J. Mod. Phys. C 21, 67 (2010).
12. Zi-Gang Huang, Sheng-Jun Wang, Xin-Jian Xu, Jin-Tu Sun and Ying-Hai Wang, Mobile agents affect worm spreading in wireless ad hoc networks, J. Stat. Mech. P09005 (2009).
11. Yu-Zhong Chen, Zi-Gang Huang, Sheng-Jun Wang, Yan Zhang, and Ying-Hai Wang, Diversity of rationality affects the evolution of cooperation, Phys. Rev. E 79, 055101 (2009) (Rapid Communication).
10. Jin-Tu Sun, Sheng-Jun Wang, Zi-Gang Huang, Ying-Hai Wang, Effect of degree correlations on networked traffic dynamics, Physica A 388 (2009) 3244–3248
9. Sheng-Jun Wang, Xin-Jian Xu, Zhi-Xi Wu, Zi-Gang Huang, and Ying-Hai Wang, Influence of synaptic interaction on firing synchronization and spike death in excitatory neuronal networks, Phys. Rev. E 78, 061906 (2008).
8. Cun-Fang Feng, Xin-Jian Xu, Sheng-Jun Wang, and Ying-Hai Wang, Projective-anticipating, projective, and projective-lag synchronization of time-delayed chaotic systems on random networks, Chaos 18, 023117 (2008).
7. Zi-Gang Huang, Sheng-Jun Wang, Xin-Jian Xu, and Ying-Hai Wang, Promote cooperation by localised small-world communication, EuroPhys. Lett. 81, 28001 (2008).
6. Sheng-Jun Wang, An-Cai Wu, Zhi-Xi Wu, Xin-Jian Xu, and Ying-Hai Wang, Response of degree-correlated scale-free networks to stimuli, Phys. Rev. E 75, 046113 (2007).
5. Chang Wen-Li, Wang Sheng-Jun, Wang Yin-Hai, Responses of Hodgkin- Huxley Neuronal Systems to Spike-Train Inputs, Chin. Phys. Lett. 24, 2696 (2007).
4. Sheng-Jun Wang, Xin-Jian Xu, Zhi-Xi Wu, and Ying-Hai Wang, Effects of degree distribution in mutual synchronization of neural networks, Phys. Rev. E 74, 041915 (2006).
3. Zhi-Xi Wu, Xin-Jian Xu, Zi-Gang Huang, Sheng-Jun Wang, and Ying-Hai Wang, Evolutionary prisoner’s dilemma game with dynamic preferential selection, Phys. Rev. E 74, 021107 (2006).
2. Sheng-Jun Wang, Xin-Jian Xu, Zhi-Xi Wu, and Ying-Hai Wang, Coupling Parameter in Synchronization of Small-World Neural Networks, Int. J. Mod. Phys. C 16, 1841 (2005).
1. Xu Xin-Jian, Wang Sheng-Jun, Tang Wei, and Wang Ying-Hai, Phase Locking Phenomena and Electroencephalogram-Like Activities in Dynamic Neuronal Systems, Chin. Phys. Lett. 22, 507 (2005).

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