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黄子罡

【来源:物理学院 | 发布日期:2013-04-08 | 作者:null 】     【选择字号:
黄子罡 教授 性别:男

计算物理与复杂系统研究所
地址:兰州市天水南路222号, 兰州大学物理科学与技术学院
电话:暂无 传真:0931-8913554  
电子邮件:huangzg@lzu.edu.cn  
个人简介:
黄子罡,教授、博士生导师。主要从事非线性动力学、复杂系统数据分析及建模研究。于20032008年毕业于兰州大学物理学院,获学士学位和博士学位,导师为汪映海教授。20088月参加SFI-CAS复杂系统暑期学校;20113月由国家自然科学基金委选派参加意大利国际理论物理中心(ICTP)会议;2010庆北国立大学访问学者,2012-2015亚利桑那州立大学访问学者、助理研究学者。曾主持完成国家自然科学基金3项、教育部博士点新教师基金1项、兰州市科技发展计划院地合作项目1项、中央高校科研业务费项目2项;发表SCI论文42篇,其中Nature Communications 1篇,Sci. Rep. 9篇,New J. Phys. 4篇,Phys. Rev. E 7篇(快速通讯2篇),Pattern Recognition 2篇。承担以下期刊审稿人:Proc. Nati. Aca. Sci. (PNAS USA), Sci. Rep. (SREP), Europhys. Lett. (EPL), PloS ONE, Phys. Rev. E (PRE), Phys. Rev. Applied (PRApp), AIP advances, J. Circ. Sys. Comp. (JCSC), Acta Physica Sinica (物理学报), Eur. Phys. J. B (EPJB), Inter. J. Mod. Phys. C (IJMPC), Chin. Phys. Lett. (中国物理快报), J. Infect. Dis. Immun. (JIDI)等。
研究方向:  
1.复杂系统中的统计物理:流量涨落理论和极端事件、自组织、相变与临界现象
2.复杂网络与动力学:耦合振子系统的集体动力学、输运与传播过程、少数者博弈、进化博弈动力学
3.生物、生态系统、社会系统大数据分析及建模:生物系统的非线性控制、蛋白质相互作用网络,人类在线行为动力学、集体行为和极端事件,因果性分析、复杂系统的可恢复性、鲁棒性及优化
 
 
研究工作:
发表论文:    
2015:
[1] W.-C. Yang, Z.-G. Huang, X.-G. Wang, L. Huang, L. Yang, and Y.-C. Lai, Complex behavior of chaotic synchronization under dual coupling channels, New J. Phys.17, 023055 (2015)
[2] Y.-Z. Chen, Z.-G. Huang, S.-H. Xu and Y. -C. Lai, Spatiotemporal patterns and predictability of cyberattacks, accepted by PloS ONE.
[3] N. Yao, Z.-G. Huang, C. Grebogi, and Y.-C. Lai, Emergence of multicluster chimera states, accepted by Sci. Rep.
[4] S.-P. Zhang, Z.-G. Huang*, J.-Q. Dong, D. Eisenberg, T. P. Seager, and Y.-C. Lai*, Optimization and resilience of complex supply-demand networks, submitted.
[5] Q. Chen, Z.-G. Huang*, Y. Wang, and Y.-C. Lai*, Attractiveness effect from winners: a multi-agent model for least unique bid auctions, submitted.
[6] P. Li, Z.-G. Huang, L. Huang, and Y.-C. Lai, Lyapunov exponent of Sinai billiards in the whole range of disk sizes, submitted.
[7] J.-J. Jiang, Z.-G. Huang, L. Huang, H. Liu, and Y.-C. Lai, Resonance-like enhancement in causality detection, submitted.
[8] J.-Q. Zhang, Z.-G. Huang*, Z.-X. Wu*, R. Su, and Y.-C. Lai*, Optimal control in complex minority-game resource-allocation systems, submitted.
[9] L.-Z. Wang, R. Su, Z.-G. Huang, and Y.-C. Lai, Nonlinear control based on the geometry of attractor networks, submitted.
2014:
[10] Z.-G. Huang, J.-Q. Dong, L. Huang, and Y.-C. Lai, Universal flux-fluctuation law in small systems, Scientific Reports 4, 6787; DOI:10.1038/srep06787 (2014).
[11] Y.-Z. Chen, Z.-G. Huang, and Y.-C. Lai, Controlling extreme events on complex networks, Scientific Reports 4, 6121; DOI:10.1038/srep06121 (2014).
[12] L.-Z. Wang, Z.-G. Huang*, Z.-H. Rong, X.-F. Wang, and Y.-C. Lai*, Emergence and evolution of online social networks. PLoS ONE 9(11): e111013 (2014).
[13] Z.-D. Zhao, Z.-G. Huang, L. Huang, H. Liu, and Y.-C. Lai, Scaling and correlation of human movements in cyberspace and physical space, Phys. Rev. E 90, 050802 (R) (2014).
[14] H. Cheng, N. Yao, Z.-G. Huang*, J. Park, Y. Do, and Y.-C. Lai*, Mesoscopic interactions and species coexistence in evolutionary game dynamics of cyclic competitions, Scientific Reports 4, 7486; DOI:10.1038/srep07486 (2014).
[15] J.-Q. Dong, Z.-G. Huang*, L. Huang, and Y.-C. Lai, Triple grouping and period-three oscillations in minority-game dynamics, Phys. Rev. E 90, 062917 (2014).
2013:
[16] Z.-D. Zhao, Z. Yang, Z. Zhang, T. Zhou, Z.-G. Huang, and Y.-C. Lai, Emergence of scaling in human interest dynamics, Scientific Reports 3, 3472; DOI:10.1038/srep03472 (2013).
[17] N. Yao, Z.-G. Huang*, Y.-C. Lai, and Z.-G. Zheng, Robustness of chimera states in complex dynamical systems, Scientific Reports 3, 3522; DOI:10.1038/srep03522 (2013).
[18] J.-Q. Zhang, Z.-G. Huang*, J.-Q. Dong, L. Huang, Y.-C. Lai, Controlling collective dynamics in complex minority-game resource-allocation systems. Phys. Rev. E 87, 052808 (2013).
[19] Z. Zhou, Z.-G. Huang*, L. Huang, Y.-C. Lai, L. Yang, and D.-S. Xue*, Universality of flux-fluctuation law in complex dynamical systems, Phys. Rev. E 87, 012808(2013).
[20] J. Park, Y. Do, Z.-G. Huang, Y.-C. Lai, Persistent coexistence of cyclically competing species in spatially extended ecosystems, Chaos 23, 023128 (2013).
[21] S.-J. Wang, Z.-G. Huang, X.-J. Xu, and Y.-H. Wang, Sparse connection density underlies the maximal functional difference between random and scale-free networks, Eur. Phys. J. B. 86, 424 (2013).
2012:
[22] Z.-G. Huang, J.-Q. Zhang, J.-Q. Dong, L. Huang, Y.-C. Lai, Emergence of grouping in multi-resource minority game dynamics, Scientific Reports 2, 703; DOI:10.1038/srep00703 (2012).
[23] J.-Q. Dong, Z.-G. Huang*, Z. Zhou, L. Huang, Z.-X. Wu, Y. Do, and Y.-H. Wang, Enhancing transport efficiency by hybrid routing strategy, Europhys. Lett. 99, 20007 (2012) .
2010:
[24] J.-T. Sun, S.-J. Wang, Z.-G. Huang*, L. Yang, Y. Do, and Y.-H. Wang*, Effect of information transmission on cooperative behavior. New Journal of Physics 12, 063034 (2010).
[25] Z. Zhou, Z.-G. Huang*, L. Yang, D.-S. Xue*, and Y.-H. Wang, The effect of human rhythm on network traffic dynamics, J. Stat. Mech. P08001 (2010) .
[26] L. Zhao, X.-J. Ye, Z.-G. Huang*, J.-T. Sun, L. Yang, Y. Do, and Y.-H. Wang, Promotion of cooperation in the form of C0C1D, J. Stat. Mech. P08009 (2010) .
[27] J.-Y. Guan, Z.-X. Wu, Z.-G. Huang, and Y.-H. Wang, Cooperation influenced by the correlation degree of two-layered complex networks in evolutionary prisoner’s dilemma games, Chin. Phys. B 19, 020203 (2010).
2009:
[28] Y.-Z. Chen, Z.-G. Huang*, S.-J. Wang, Y. Zhang*, and Y.-H. Wang*, Diversity of rationality affects the evolution of cooperation, Phys. Rev. E 79, 055101(Rapid Communication) (2009).
[29] Z.-G. Huang, S.-J. Wang, X.-J. Xu, and Y.-H. Wang, Mobile agents affect worm spreading in wireless ad hoc networks, J. Stat. Mech. 9, 09005 (2009).
[30] J.-T. Sun, S.-J. Wang, Z.-G. Huang, and Y.-H. Wang, Effect of degree correlations on networked traffic dynamics, Physica A 388, 3244 (2009).
2008:
[31] S.-J. Wang, X.-J. Xu, Z.-X. Wu, Z.-G. Huang, and Y.-H. Wang, Influence of synaptic interaction on firing synchronization and spike death in excitatory neuronal networks, Phys. Rev. E 78, 061906 (2008).
[32] Z.-G. Huang, Z.-X. Wu, A.-C. Wu, L. Yang, and Y.-H. Wang, Role of collective influence in promoting cooperation, Europhys. Lett. 84, 50008 (2008).
[33] Z.-G. Huang, S.-J. Wang, X.-J. Xu, and Y.-H. Wang, Promote cooperation by localized small-world communications, Europhys. Lett. 81, 28001 (2008).
[34] N. Du, H. Feng, Z.-G. Huang, S. Maki, R. Wang, and H.-X. Zhao, Formation of community structure in social networks, student paper: 2008 Complex Systems Summer School, SFI & ITP-CAS (2008).
2007:
[35] Z.-G. Huang, Z.-X. Wu, X.-J. Xu, J.-Y. Guan, and Y.-H. Wang, Coevolutionary dynamics of network and game under birth-death and birth mechanisms, Eur. Phys. J. B. 58, 493 (2007).
[36] Z.-G. Huang, Y. Chen, Y. Zhang, and Y.-H. Wang, Description of dynamics of stock prices by a Langevin approach, Chin. Phys. 16, 975 (2007).
2006:
[37] Z.-X. Wu, X.-J. Xu, Z.-G. Huang, S.-J. Wang, and Y.-H. Wang, Evolutionary prisoner’s dilemma game with dynamic preferential selection, Phys. Rev. E 74, 021107 (2006).
[38] J.-Y. Guan, Z.-X. Wu, Z.-G. Huang, X.-J. Xu, and Y.-H. Wang, Promotion of cooperation induced by nonlinear attractive effect in spatial prisoner’s dilemma game, Europhys. Lett. 76, 1214 (2006).
[39] Z.-G. Huang, X.-J. Xu, Z.-X. Wu and Y.-H. Wang, Walks on Apollonian networks, Eur. Phys. J. B 51, 549 (2006).
[40] Z.-G. Huang, Z.-X. Wu, J.-Y. Guan, and Y.-H. Wang, Memory-based boolean game and self-organized phenomenon on networks, Chin. Phys. Lett. 23, 3119 (2006).
[41] J.-Y. Guan, Z.-X. Wu, Z.-G. Huang, and Y.-H. Wang, Prisoner's dilemma game with nonlinear attractive effect on regular small-world networks, Chin. Phys. Lett. 23, 2874 (2006).
Book:
[42] Book Chapter: L. Liu, X. Li, J. Jin, Z.-G. Huang, M. Liu and M. Palaniswami, “Graph-based Routing, Broadcasting and Organizing Algorithms for Ad-hoc Networks”, pp. 55-73, Book Chapter 3 in the book entitled “Wireless Ad-Hoc Networks” edited by Hongbo Zhou (InTech 2012), ISBN 978-953-51-0896-2, DOI: 10.5772/3438. http://www.intechopen.com/ books/wireless-ad-hoc-networks.
 
研究成果:
研究组成员: