周涛论文存档1-100
周涛  |  2022-07-24  |  科学网  |  387次阅读

[1]  周涛,傅忠谦,周佩玲,张建荣,张德学,基于遗传算法的大规模流量工程问题求解,计算机应用,2003年第6期,43-45页。

[2] 周佩玲,许旻,赵亮,周涛,混沌信号奇异性检测与外界冲击度量,数据采集与处理,2004年第19卷,195-198页。

[3] 周涛,徐俊明,刘隽,图直径和平均距离极值问题研究,中国科学技术大学学报,2004年第34卷,410-413页。

[4] 周佩玲,杨春霞,周涛,李立文,虚拟股市建模与混沌分析,中国科学技术大学学报,2004年第34卷,442-448页。

[5] T. Zhou, P.-L. Zhou, B.-H. Wang, Z.-N. Tang, J. Liu, Modeling Stock Market Based on Genetic Cellular Automata, Int. J. Mod. Phys. B 18 (2004) 2697-2702.

[6] T. Zhou, M. Xu, J. Liu, On diameter and average Distance of Graphs, Oper. Res. Trans. 8 (2004) 33-38.

[7] 韩筱璞,周涛,汪秉宏,基于元胞自动机的国家演化模型研究,复杂系统与复杂性科学,2004年第1卷第4期,74-78 页。

[8] 周涛,柏文洁,汪秉宏,刘之景,严钢,复杂网络研究概述,物理,2005年第34卷第1期,31-36页。

[9] G. Yan, T. Zhou, J. Wang, Z.-Q. Fu, B.-H. Wang, Epidemic spread in weighted scale-free networks, Chin. Phys. Lett. 22 (2005) 510-513.

[10]  C.-X. Yang, T. Zhou, P.-L. Zhou, J. Liu, Z.-N. Tang, Evolvement Complexity in an Artificial Stock Market, Chin. Phys. Lett. 22 (2005) 1014-1017.

[11] Y.-B. Xie, B.-H. Wang, B. Hu, T. Zhou, Power-law distribution of wealth in population based on a modified EZ model, Phys. Rev. E 71 (2005) 046135.

[12] T. Zhou, G. Yan, B.-H. Wang, Maximal planar networks with large clustering coefficient and power-law degree distribution, Phys. Rev. E 71 (2005) 046141.

[13] 周涛,傅忠谦,牛永伟,王达,曾燕,汪秉宏,周佩玲,复杂网络上传播动力学研究综述,自然科学进展,2005年第15卷第5期,513-518页。

[14] P.-Q. Jiang, B.-H. Wang, T. Zhou, Y.-D. Jin, Z.-Q. Fu, P.-L. Zhou, X.-S. Luo, Networks emerging from the competition of pullulation and decrepitude, Chin. Phys. Lett. 22 (2005) 1285-1288.

[15] 刘隽,周涛,周佩玲,GA优化支持向量机用于混沌时间序列预测,中国科学技术大学学报,2005年第35卷第2期,258-263页。

[16] 汪秉宏,周涛,何大韧,统计物理学与复杂系统研究最新发展趋势分析,中国基础科学,2005年第3期,37-43页。

[17] J. Wang, C.-X. Yang, P.-L. Zhou, Y.-D. Jin, T. Zhou, B.-H. Wang, Evolutionary percolation model of stock market with variable agent number, Physica A 354 (2005) 505-517.

[18] T. Zhou, W.-J. Bai, L.-J. Cheng, B.-H. Wang, Continuous extremal optimization for Lennard-Jones clusters, Phys. Rev. E 72 (2005) 016702.

[19] P.-L. Zhou, C.-Y. Yang, T. Zhou, M. Xu, J. Liu, B.-H. Wang, Avalanche Dynamics of the Financial Market, New Mathematics and Natural Computation 1 (2005) 275-283.

[20] 赵明,汪秉宏,蒋品群,周涛,复杂网络上动力系统同步的研究进展,物理学进展,2005年第25卷,273-295页。

[21] 周涛,周佩玲,刘隽,汪秉宏,规则网络上的耗散级联动力学,复杂系统与复杂性科学,2005年第2卷第1期,18-23页。

[22] C.-X. Yang, J. Wang, T. Zhou, J. Liu, M. Xu, P.-L. Zhou, B.-H. Wang, Financial market model based on self-organized percolation, Chin. Sci. Bull. 50 (2005) 2140-2144;杨春霞,王杰,周涛,刘隽,许民,周佩玲,汪秉宏,基于自组织逾渗的金融市场模型,科学通报,2005年第50卷,2309-2313页。

[23] T. Zhou, B.-H. Wang, P.-L. Zhou, C.-X. Yang, J. Liu, Self-organized Boolean game on networks, Phys. Rev. E 72 (2005) 046139.

[24] W.-X. Wang, B. Hu, T. Zhou, B.-H. Wang, Y.-B. Xie, A mutual selection model for weighted networks, Phys. Rev. E 72 (2005) 046140.

[25] J.-M. Xu, Q. Zhu, X.-M. Hou, T. Zhou, On Restricted Connectivity and Extra Connectivity of Hypercubes and Folded Hypercubes, Journal of Shanghai Jiaotong University, 10 (2005) 203-207.

[26] P.-P. Zhang, K. Chen,Y. He, T. Zhou, B.-B. Su, Y.-D. Jin, H. Chang, Y.-P. Zhou, L.-C. Sun, B.-H. Wang, D.-R. He, Model and empirical study on some collaboration networks, Physica A 360 (2006) 599-616.

[27] M. Zhao, T. Zhou, B.-H. Wang, W.-X. Wang, Enhance synchronizability by structural perturbations, Phys. Rev. E 72 (2005) 057102.

[28] Y.-B. Xie, B.-H. Wang, C.-K. Hu, T. Zhou, Global optimization of minority game by intelligent agents, Eur. Phys. J. B 47 (2005) 587-593.

[29] W.-X. Wang, B.-H. Wang, W.-C. Zheng, C.-Y. Yin, T. Zhou, Advanced information feedback in intelligent traffic systems, Phys. Rev. E 72 (2005) 066702.

[30] 章忠志,荣莉莉,周涛,一类无标度合作网络的演化模型,系统工程理论与实践,2005年第25卷第11期,55-60页。

[31] 周涛,周佩玲,汪秉宏,杨春霞,蔡世民,元胞自动机用于金融市场建模,复杂系统与复杂性科学,2005年第2卷第4期,10-15页。

[32] P.-P. Zhang, Y. He, T. Zhou, B.-B. Su, H. Chang, Y.-P. Zhou, B.-H. Wang, D.-R. He, A Model describing the degree distribution of collaboration networks, Acta Physica Sinica 55 (2006) 60-67;张培培,何阅,周涛,苏蓓蓓,常慧,周月平,汪秉宏,何大韧,一个描述合作网络顶点度分布的模型,物理学报,2006年第55卷第1期,66-67页。

[33] C.-Y. Yin, B.-H. Wang, W.-X. Wang, T. Zhou, H.-J. Yang, Efficient routing on scale-free networks based on local information, Phys. Lett. A 351 (2006) 220-224.

[34] W.-X. Wang, B.-H. Wang, C.-Y. Yin, Y.-B. Xie, T. Zhou, Traffic dynamics based on local routing protocol on scale-free networks, Phys. Rev. E 73 (2006) 026111.

[35] S,-M. Cai, P.-L. Zhou, H.-J. Yang, C.-X. Yang, B.-H. Wang, T. Zhou, Empirical study on the volatility of Hang Seng index, Chin. Phys. Lett. 23 (2006) 754-757.

[36] T. Zhou, M. Zhao, B.-H. Wang, Better Synchronizability Predicted by Crossed Double Cycle, Phys. Rev. E 73 (2006) 037101.

[37] G. Yan, T. Zhou, B. Hu, Z.-Q. Fu, B.-H. Wang, Efficient Routing on Complex Networks, Phys. Rev. E 73 (2006) 046108.

[38] X. Wu, B.-H. Wang, T. Zhou, W.-X. Wang, M. Zhao, H.-J. Yang, The synchronizability of highly clustered scale-free networks, Chin. Phys. Lett. 23 (2006) 1046-1049. 

[39] T. Zhou, Z.-Q. Fu, B.-H. Wang, Epidemic Dynamics on Complex Networks, Prog. Nat. Sci. 16 (2006) 452-457. MR2225952

[40] T. Zhou, B.-H. Wang, P.-M. Hui, K. P. Chan, Topological Properties of Integer Networks, Physica A 367 (2006) 613-618.

[41] S.-M. Cai, P.-L. Zhou, H.-J. Yang, C.-X. Yang, B.-H. Wang, T. Zhou, Diffusion entropy analysis on the scaling behavior of financial markets, Physica A 367 (2006) 337-344.

[42] T. Zhou, G. Yan, B.-H. Wang, Reply to Comment on Maximal planar networks with large clustering coefficient and power-law degree distribution, Phys. Rev. E 73 (2006) 058102.

[43] B. Wang, H.-W. Tang, Z.-L. Xiu, C.-H. Guo, T. Zhou, Optimization of network structure to random failures, Physica A 368 (2006) 607-614.

[44] C.-X. Yang, S.-M. Jiang, T. Zhou, B.-H. Wang, P.-L. Zhou, Self-organized Criticality of Computer Network Traffic, In Proceedings of the 2006 International Conference on Communications, Circuits and Systems (IEEE Press, 2006), pp. 1740-1743.

[45] P.-L. Zhou, S.-M. Cai, T. Zhou, Z.-Q. Fu, Scaling behaviors of traffic in computer communication networks, In Proceedings of the 2006 International Conference on Communications, Circuits and Systems (IEEE Press, 2006), pp. 1744-1748.

[46] W.-J. Bai, T. Zhou, Z.-Q. Fu, Y.-H. Chen, X. Wu, B.-H. Wang, Electric Power Grids and Blackouts in Perspective of Complex Networks, In Proceedings of the 2006 International Conference on Communications, Circuits and Systems (IEEE Press, 2006), pp. 2687-2691.  

[47] 周涛,傅忠谦,周佩玲,混合算法在流量工程中的应用研究,中国科学技术大学学报,2006年第36卷第5期,562-566页。

[48] 杨春霞,周佩玲,刘隽,郭立,周涛,基于虚拟股市的演化复杂性度量与分析,中国科学技术大学学报,2006年第36卷第5期,556-561页。

[49] T. Zhou, G. Yan, B.-H. Wang, Z.-Q. Fu, B. Hu, C.-P. Zhu, W.-X. Wang, Traffic dynamics on complex networks, Dynamics of Continuous, Discrete and Impulsive Systems B 13 (2006) 463-469.

[50] W.-X. Wang, B.-H. Wang, T. Zhou, B. Hu, G. Yan, Y.-B. Xie, Traffic-driven model for weighted networks, Dynamics of Continuous, Discrete and Impulsive Systems B 13 (2006) 481-488.

[51] Z.-M. Gu, T. Zhou, B.-H. Wang, G. Yan, C.-P. Zhu, Z.-Q. Fu, Simplex triangulation induced scale-free networks, Dynamics of Continuous, Discrete and Impulsive Systems B 13 (2006) 505-510.  

[52] T. Zhou, J.-G. Liu, B.-H. Wang, Notes on the calculation of node betweenness, Chin. Phys. Lett. 23 (2006) 2327-2329.  

[53] 周涛,周佩玲,汪秉宏,杨春霞,蔡世民,元胞自动机用于金融市场建模,复杂系统与复杂性科学,2005年第2卷第4期,10-15页。

[54] J. Li, B.-H. Wang, P.-Q. Jiang, T. Zhou, W.-X. Wang, Growing complex network model with accelerating increasing number of nodes, Acta Physica Sinica 55 (2006) 4051-4057; 李季,汪秉宏,蒋品群,周涛,王文旭,节点数加速增长的复杂网络生长模型,物理学报,2006年第55卷第8期,4051-4057页。

[55] 汪秉宏,王文旭,周涛,交通流驱动的含权网络,物理,2006年第35卷第4期, 304-310页。

[56] 曾燕,周佩玲,周涛,马婧,杨春霞,网络拓扑结构对于局域少数者博弈行为的影响,中国科学技术大学学报,2006年第36卷第8期,893-897页。

[57] M. Zhao, T. Zhou, B.-H. Wang, G. Yan, H.-J. Yang, W.-J. Bai, Relations between average distance, heterogeneity and network synchronizability, Physica A 371 (2006) 773-780.

[58] Q. Guo, T. Zhou, J.-G. Liu, W.-J. Bai, B.-H. Wang, M. Zhao, Growing Scale-free Small-world Networks with Tunable Assortative Coefficient, Physica A 371 (2006) 814-822.

[59] J.-G. Liu, Y.-Z. Dang, Z.-T. Wang, T. Zhou, Relationship between the in-degree and out-degree of WWW, Physica A 371 (2006) 861-869.

[60] L. Tian, C.-P. Zhu, D.-N. Shi, Z.-M. Gu, T. Zhou, Universal scaling behavior of clustering coefficient induced by deactivation mechanism, Phys. Rev. E 74 (2006) 046103.

[61] T. Zhou, J.-G. Liu, W.-J. Bai, G.-R. Chen, B.-H. Wang, Behaviors of susceptible0infected epidemics on scale-free networks with identical infectivity, Phys. Rev. E 74 (2006) 056109.

[62] M. Zhao, T. Zhou, B.-H. Wang, Q. Ou, J. Ren, Better synchronizability predicted by a new coupling method, Eur. Phys. J. B 53 (2006) 375.

[63] S.-L. Bu, B.-H. Wang, T. Zhou, Gaining scale-free and high clustering complex networks, Physica A 374 (2006) 864-868.

[64] 蔡世民,周佩玲,杨春霞,汪秉宏,杨会杰,周涛,金融市场价格标度行为的实证研究,中国科学技术大学学报,2006年第36卷第12期,1281-1284页。

[65] X.-J. Xu, W.-X. Wang, T. Zhou, G.-R. Chen, Geographical Effects on Epidemic Spreading in Scale-Free Networks, Int. J. Mod. Phys. C 17 (2006) 1815-1822.

[66] M.-H. Li, J.-S. Wu, D.-H. Wang, T. Zhou, Z.-R. Di, Y. Fan, Evolving Model of Weighted Networks Inspired by Scientific Collaboration Networks, Physica A 375 (2007) 355-364.

[67] S.-M. Cai, P.-L. Zhou, H.-J. Yang, T. Zhou, B.-H. Wang, F.-C. Zhao, Diffusion entropy analysis on the stride interval fluctuation of human gait, Physica A 375 (2007) 687-692.

[68] J. Ma, P.-L. Zhou, T. Zhou, W.-J. Bai, S.-M. Cai, Boolean Game on Scale-Free Networks, Physica A 375 (2007) 709-716.

[69] C.-J. Fu, B.-H. Wang, C.-Y. Yin, T. Zhou, B. Hu, K. Gao, P.-M. Hui, C.-K. Hu, Analytical studies on a modified Nagel-Schreckenberg model with the Fukui-Ishibashi Acceleration Rule, Chaos, Solitons and Fractals 31 (2007) 772-776.

[70] H.-K. Liu, T. Zhou, Empirical Study on Chinese City Airport Networks, Acta Physica Sinica 56 (2007) 106-112;刘宏鲲,周涛,中国城市航空网络的实证研究与分析,物理学报,2007年第56卷第1期,106-112页。

[71] H.-T. Zhang, C.-K. Qi, T. Zhou, H.-X. Li, Greatly enhancing the modeling accuracy for distributed parameter systems by nonlinear time/space separation, Physica A 376 (2007) 215-222.

[72] Z.-M. Gu, M. Zhao, T. Zhou, C.-P. Zhu, B.-H. Wang, Phase synchronization of non-Abelian oscillators on small-world networks, Phys. Lett. A 362 (2007) 115-119.

[73] Q. Ou, Y.-D. Jin, T. Zhou, B.-H. Wang, B.-Q. Yin, Power-law strength-degree correlation from resource-allocation dynamics on weighted networks, Phys. Rev. E 75 (2007) 021102.

[74] B.-H. Wang, T. Zhou, Traffic flow and efficient routing on scale-free networks: A survey, J. Korean Phys. Soc. 50 (2007) 134-141.

[75] Y.-B. Xie, T. Zhou, W.-J. Bai, G.-R. Chen, W.-K. Xiao, B.-H. Wang, Geographical networks evolving with optimal policy, Phys. Rev. E 75 (2007) 036106.

[76] R. Yang, B.-H. Wang, J. Ren, W.-J. Bai, Z.-W. Shi, W.-X. Wang, T. Zhou, Epidemic spreading on heterogeneous networks with identical infectivity, Phys. Lett. A 364 (2007) 189-193.

[77] S.-M. Cai, G. Yan, T. Zhou, P.-L. Zhou, Z.-Q. Fu, B.-H. Wang, Scaling behaviors of an artificial traffic model on scale-free networks, Phys. Lett. A 366 (2007) 14-19.

[78] T. Zhou, B.-H. Wang, Y.-D. Jin, D.-R. He, P.-P. Zhang, Y. He, B.-B. Su, K. Chen, Z.-Z. Zhang, J.-G. Liu, Modeling collaboration networks based on nonlinear preferential attachment, Int. J. Mod. Phys. C 18 (2007) 297-314.

[79] J.-M. Xu, T. Zhou, Y. Du, J. Yan, A New Upper Bound on Forwarding Index of Graphs, Ars Combinatoria 83 (2007) 289-293. MR2305766

[80] T. Zhou, M. Zhao, G.-R. Chen, G. Yan, B.-H. Wang, Phase synchronization on scale-free networks with community structure, Phys. Lett. A 368 (2007) 431-434.

[81] W.-J. Bai, T. Zhou, B.-H. Wang, Immunization of susceptible-infected model on scale-free networks, Physica A 384 (2007) 656-662.

[82] W.-J. Bai, T. Zhou, B.-H. Wang, Interplay between HIV/AIDS Epidemics and Demographic Structures Based on Sexual Contact Networks, Int. J. Mod. Phys. C 18 (2007) 1025-1045.

[83] 周涛,肖伟科,任捷,汪秉宏,网络集团度的幂律分布,复杂系统与复杂性科学,2007年第4卷第2期,10-17页。

[84] W.-K. Xiao, J. Ren, Q. Feng, Z.-W. Song, M.-X. Zhu, H.-F. Yang, H.-Y. Jin, B.-H. Wang, T. Zhou, Empirical study on clique-degree distribution of networks, Phys. Rev. E 76 (2007) 037102.

[85] S.-M. Cai, H. Peng, H.-J. Yang, T. Zhou, P.-L. Zhou, B.-H. Wang, Scaling Behavior and Memory in Heart Rate of Healthy Human, Chin. Phys. Lett. 24 (2007) 3002-3005.

[86] T. Zhou, J. Ren, M. Medo, Y.-C. Zhang, Bipartite network projection and personal recommendation, Phys. Rev. E 74 (2007) 046115.

[87] M. Zhao, T. Zhou, G.-R. Chen, B.-H. Wang, Enhancing the network synchronizability, Front. Phys. China 2 (2007) 460-468.

[88] Y.-C. Zhang, M. Medo, J. Ren, T. Zhou, T. Li, F. Yang, Recommendation model based on opinion diffusion, EPL 80 (2007) 68003.

[89] T. Zhou, Efficient routing on scale-free networks, Int. J. Mod. Phys. B 21 (2007) 4071-4075.

[90] Y.-F. Lu, M. Zhao, T. Zhou, B.-H. Wang, Enhance synchronizability via age-based coupling, Phys. Rev. E 76 (2007) 057103.

[91] S.-M. Cai, Z.-H. Jiang, T. Zhou, P.-L. Zhou, H.-J. Yang, B.-H. Wang, Scale-invariance of human EEG signals in sleep, Phys. Rev. E 76 (2007) 061903.

[92] J.-G. Liu, Y.-Z. Dang, Z.-T. Wang, W.-X. Wang, T. Zhou, B.-H. Wang, Self-learning Mutual Selection Model for Weighted Networks, Dynamics of Continuous, Discrete and Impulsive Systems B 14(S7) (2007) 33-36.

[93] H.-K. Liu, T. Zhou, Topological properties of Chinese airline network, Dynamics of Continuous, Discrete and Impulsive Systems B 14(S7) (2007) 135-138.

[94] B. Wang, T. Zhou, Z.-L. Xu, B. J. Kim, Optimizing synchronizability of networks, Eur. Phys. J. B 60 (2007) 89-95.

[95] 韩筱璞,周涛,汪秉宏,基于自适应调节的人类动力学模型,复杂系统与复杂性科学,2007年第4卷第4期,1-5页。

[96] Y.-B. Xie, T. Zhou, B.-H. Wang, Scale-free networks without growth, Physica A 387 (2008) 1683-1687.

[97] Q. Guo, J.-G. Liu, B.-H. Wang, T. Zhou, X.-W. Chen, Y.-H. Yao, Opinion spreading with mobility on scale-free networks, Chin. Phys. Lett. 25 (2008) 773-775.

[98] C.-P. Zhu, T. Zhou, H.-J. Yang, S.-J. Xiong, Z.-M. Gu, D.-N. Shi, D.-R. He, B.-H. Wang, The process of coevolutionary competitive exclusion: speciation, multifractality and power-laws in correlation, New J. Phys. 10 (2008) 023006.

[99] T. Zhou, Reply to Comment on Epidemic spreading on heterogeneous networks with identical infectivity, Phys. Lett. A 372 (2008) 1725-1726.

[100] T. Zhou, L.-L. Jiang, R.-Q. Su, Y.-C. Zhang, Effect of initial configuration on network-based recommendation, EPL 81 (2008) 58004.





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