Publications

2020年

  1. Yi Yuhao, Zhang Zhongzhi*, and Patterson Stacy. Scale-free loopy structure is resistant to noise in consensus dynamics in complex networks. IEEE Transactions on Cybernetics, 2020, 50(1):190-200.
  2. Zhang Zuobai, Xu Wanyue, and Zhang Zhongzhi*. Nearly linear time algorithm for mean hitting times of random walks on a graph. In: Proceedings of ACM International Conference on Web Search and Data Mining (WSDM 2020), Houston, USA, February 3-7, 2020, pp.726-734.
  3. Lin Yuan and Zhang Zhongzhi*. Effects of edge centrality on random walks on graphs. The Computer Journal, 2020, 63(1):25-40.
  4. Li Huan, Patterson Stacy, Yi Yuhao, and Zhang Zhongzhi*. Maximizing the number of spanning trees in a connected graph. IEEE Transactions on Information Theory. 2020, 66(2):1248-1260.
  5. Zeng Yibo and Zhang Zhongzhi*. Spectra, hitting times, and resistance distances of $q$-subdivision graphs. The Computer Journal, 2019, ***:**-**.(in press).
  6. Qi Yi, Dong Yuze, Zhang Zhongzhi*, and Zhang Zhang. Hitting times for random walks on Sierpiński graphs and hierarchical graphs. The Computer Journal,2020, 63(9):1385-1396.
  7. Zhang Zuobai, Xu Wanyue, Yi Yuhao, and Zhang Zhongzhi* . Fast approximation of coherence for second-order noisy consensus networks. IEEE Transactions on Cybernetics, 2020, ***:**-**.(in press).
  8. Xu Wanyue, Sheng Yibin, Zhang Zuobai, Kan Haibin, and Zhang Zhongzhi*. Power-law graphs with minimal scaling of Kemeny constant for random walks. In: Proceedings of the Web Conference (WWW’20), Taipei, China, April 20-24, 2020, pp.46-56.
  9. Zhang Zuobai, Xu Wanyue, and Zhang Zhongzhi* , and Chen Guanrong. Opinion dynamics incorporating high-order interactions. In: Proceedings of the 20th IEEE International Conference on Data Mining (ICDM 2020), Sorrento, Italy, November 17-20, 2020, pp.***-***.

2019年

  1. Qi Yi, Zhang Zhongzhi*, Yi Yuhao, and Li Huan. Consensus in self-similar hierarchical graphs and Sierpiński graphs: Convergence speed, delay robustness, and coherences. IEEE Transactions on Cybernetics, 2019, 49(2):592-603.
  2. Lin Yuan and Zhang Zhongzhi*. Non-backtracking centrality-based random walk on networks. The Computer Journal, 2019, 62(1):63-80.
  3. Patterson Stacy, Yi Yuhao, and Zhang Zhongzhi. A resistance distance-based approach for optimal leader selection in noisy consensus networks. IEEE Transactions on Control of Network Systems, 2019, 6(1):191-201.
  4. Qi Yi and Zhang Zhongzhi*. Spectral properties of extended Sierpiński graphs and their applications. IEEE Transactions on Network Science and Enginerring, 2019,  6(3):512-522.
  5. Qi Yi, Yi Yuhao, and Zhang Zhongzhi*. Topological and spectral properties of small-world hierarchical graphs. The Computer Journal, 2019, 62(5):769-784. (Wilkes AwardBest Paper Award)
  6. Li Huan, Peng Richard, Shan Liren, Yi Yuhao, and Zhang Zhongzhi. Current flow group closeness centrality for complex networks. In: Proceedings of the Web Conference (WWW 2019), San Francisco, USA, May 13-17, 2019, pp.961-971.
  7. Sheng Yibin and Zhang Zhongzhi*. Low Mean hitting time for random walks on heterogeneous networks. IEEE Transactions on Information Theory, 2019, 65(11):6898-6910.
  8. Jin Yujia, Bao Qi, and Zhang Zhongzhi*. Forest distance closeness centrality in disconnected graphs. In: Proceedings of the 19th IEEE International Conference on Data Mining (ICDM 2019), Beijing, China, November 8-11, 2019, pp..339-348 .
  9. Wang Yucheng, Bao Qi, and Zhang Zhongzhi*. Combinatorial properties of Farey graphs. Theoretical Computer Science, 2019, 796:70-89.

2018年

  1. Li Huan and Zhang Zhongzhi. Kirchhoff index as a measure of edge centrality in weighted networks: Nearly linear algorithms. In: Proceedings of the 29th SIAM-ACM Symposium on Discrete Algorithms (SODA’2018), New Orleans, Louisiana, USA, 2018, pp.2377-2396.
  2. Qi Yi, Li Huan, and Zhang Zhongzhi*. Extended corona product as an exactly tractable model for weighted heterogeneous networks. The Computer Journal, 2018, 61(5):745-760.
  3. Yi Yuhao, Yang Bingjia, Zhang Zhongzhi, and Patterson Stacy. Biharmonic distance and the performance of second-order consensus networks with stochastic disturbances. In: Proceedings of the 2018 American Control Conference (ACC 2018), Milwaukee, Wisconsin, USA, June 27-29, 2018, pp.4943-4950.
  4. Shan Liren, Li Huan, and Zhang Zhongzhi*. Independence number and the number of maximum independent sets in pseudofractal scale-free web and Sierpiński graph. Theoretical Computer Science, 2018, 720:47-54.
  5. Xie Pinchen, Yang Bingjia, Zhang Zhongzhi, and Andrade Roberto F S. Exact evaluation of the causal spectrum and localization properties of electronic states on a scale-free network. Physica A, 2018, 502:40-48.
  6. Yi Yuhao, Shan Liren, Li Huan, and Zhang Zhongzhi. Biharmonic distance related centrality for edges in weighted networks. In: Proceedings of the 27th International Joint Conference on Artificial Intelligence  (IJCAI 2018), Stockholm, Sweden, July 13-19, 2018, pp.3620-3626.
  7. Shan Liren, Yi Yuhao, and Zhang Zhongzhi. Improving information centrality of a node in complex networks by adding edges. In: Proceedings of the 27th International Joint Conference on Artificial Intelligence (IJCAI 2018), Stockholm, Sweden, July 13-19, 2018, pp.3535-3541.
  8. Das Anirban, Yi Yuhao, Patterson Stacy, Bamieh Bassam, and Zhang Zhongzhi. Convergence rate of consensus in a network of networks. In: Proceedings of the 2018 IEEE Conference on Decision and Control (CDC 2018), Fontainebleau, Miami Beach, FL, USA, December 17-19, 2018, pp.459-465.

2017

  1. Yi Yuhao, Zhang Zhongzhi*, Shan Liren, and Chen Guanrong, Robustness of first- and second-order consensus algorithms for a noisy scale-free small-world Koch network. IEEE Transactions on Control Systems Technology, 2017, 25(1): 342-350.
  2. Lin Yuan, Chen Wei, and Zhang Zhongzhi. Assessing percolation threshold based on high-order non-backtracking matrices. In: Proceedings of the 26th International World Wide Web Conferences (WWW’17), Perth, Australia, 2017, pp.223-232.
  3. Li Huan and Zhang Zhongzhi*. Maximum matchings in scale-free networks with identical degree distribution. Theoretical Computer Science, 2017, 675:64-81.
  4. Shan Liren, Li Huan, and Zhang Zhongzhi*. Domination number and minimum dominating sets in pseudofractal scale-free web and Sierpinski graph. Theoretical Computer Science, 2017, 677:12-30.
  5. Jin Yujia, Li Huan and Zhang Zhongzhi*. Maximum matchings and minimum dominating sets in Apollonian network and extended Tower of Hanoi graphs. Theoretical Computer Science, 2017, 703:37-54.
  6. Zhan Weihua, Guan Jihong, and Zhang Zhongzhi. A new method of extracting the hierarchical organization of Networks. International Journal of Information Technology & Decision Making, 2017, 16(5):1359-1385.

2016

  1. Zhongzhi Zhang, Wu Shunqi, Li Mingyun, and Comellas Francesc. The number and degree distribution of spanning trees in the Tower of Hanoi graph. Theoretical Computer Science, 2016, 609:443-455.
  2. Xie Pinchen, Zhang Zhongzhi, and Comellas Francesc. On the spectrum of the normalized Laplacian of iterated triangulations of graphs. Applied Mathematics and Computation, 2016, 273:1123-1129.
  3. Liu Hongxiao, Lin Yuan, Dolgushev Maxim, and Zhang Zhongzhi*. Dynamics of “comb-of-comb” networks. Physical Review E, 2016, 93: 032502.
  4. Xie Pinchen, Zhongzhi Zhang*, and Comellas Francesc. The normalized Laplacian spectrum of subdivisions of a graph. Applied Mathematics and Computation, 2016, 286: 250-256.
  5. Dolgushev Maxim, Liu Hongxiao, and Zhang Zhongzhi*. Extended Vicsek fractals: Laplacian spectra and their applications. Physical Review E, 2016, 94: 052501.
  6. Xie Pinchen, Wu Bo, and Zhang Zhongzhi*. Exactly solvable tight-binding model on two scale-free networks with identical degree distribution. EPL (Europhysics Letters), 2016, 116: 38002.

2015

  1. Zhang Zhongzhi and Wu Bin. Pfaffian orientations and perfect matchings of scale-free networks. Theoretical Computer Science, 2015, 570:55-69.
  2. Liu Hongxiao, Dolgushev Maxim, Qi Yi, and Zhang Zhongzhi*. Laplacian spectra of a class of small-world networks and their applications. Scientific Reports, 2015, 5:9024.
  3. Zhang Zhongzhi, Lin Yuan, and Guo Xiaoye. Eigenvalues for transition matrix of a small-world scale-free network: Explicit expressions and applications. Physical Review E, 2015, 91:062808.
  4. Xie Pinchen, Lin Yuan, and Zhang Zhongzhi*. Spectrum of walk matrix for Koch network and its application. The Journal of Chemical Physics, 2015, 142:224106.
  5. Zhang Zhongzhi, Li Huan, and Yi Yuhao. Anomalous behavior of random walks in extended dendrimers with a deep trap. The Journal of Chemical Physics, 2015, 143: 064901.
  6. Peng Junhao, Agliari Elena, and Zhang Zhongzhi. Exact calculations of first-passage properties on the pseudofractal scale-free web. Chaos, 2015, 25:073118.
  7. Zhang Zhongzhi, Dong Yuze, and Sheng Yibin. Mixed random walks with a trap in scale-free networks including nearest-neighbor and next-nearest-neighbor jumps. The Journal of Chemical Physics, 2015, 143: 134101.
  8. Lv Qian, Yi Yuhao, and Zhang Zhongzhi *. Corona graphs as a model of small-world networks. Journal of Statistical Mechanics: Theory and Experiment, 2015, P11024.
  9. Zhang Yichao, Chen Guanrong, Guan Jihong, Zhang Zhongzhi, and Zhou
    Shuigeng Unfavorable individuals in social gaming networks. Scientific Reports, 2015,  5:17481.
  10. Zhang Zhongzhi, Guo Xiaoye, and Yuhao Yi. Spectra of weighted scale-free networks. Scientific Reports, 2015, 5:17469.
  11. Yi Yuhao, Zhang Zhongzhi *, Lin Yuan, and Chen Guanrong. Small-world topology can significantly improve the performance of noisy consensus in a complex network. The Computer Journal, 2015, 58(12):3242-3254.

2014

  1. Lin Yuan and Zhang Zhongzhi*. Mean first -passage time for maximal-entropy random walks in complex networks. Scientific Reports, 2014, 4:5365.
  2. Zhang Zhongzhi, Wu Bin, and Comellas Francesc. The number of spanning trees in Apollonian networks. Discrete Applied Mathematics, 2014, 169:206-213.
  3. Peng Xin and Zhang Zhongzhi*. Maximal entropy random walk improves efficiency of trapping in dendrimers. The Journal of Chemical Physics, 2014, 140:234104.
  4. Zhang Zhongzhi, Guo Xiaoye, and Yuan Lin. Full eigenvalues of Markov matrix for scale-free polymer networks. Physical Review E, 2014, 90:022816.
  5. Lin Yuan and Zhang Zhongzhi*. Controlling the efficiency of trapping in a scale-free small-world network. Scientific Reports, 2014, 4:6274.
  6. Zhang Zhongzhi, Li Huan, and Sheng Yibin. Effects of reciprocity on random walks in weighted networks. Scientific Reports, 2014, 4:7460.
  7. Qi Yi, Dolgushev Maxim, and Zhang Zhongzhi*, Dynamics of semiflexible recursive small-world polymer networks. Scientific Reports, 2014, 4:7576.

2013

  1. Yang Yihang and Zhang Zhongzhi*. Random walks in unweighted and weighted modular scale-free networks with a perfect trap. The Journal of Chemical Physics, 2013, 139:234106. (Cover paper) (Featured article)
  2. Yang Yihang and Zhang Zhongzhi*. Optimal scale-free network with a minimum scaling of transport efficiency for random walks with a perfect trap. The Journal of Chemical Physics, 2013, 138:034101.
  3. Zhang Zhongzhi, Shan Tong, and Chen Guanrong. Random walks on weighted networks. Physical Review E, 2013, 87:012112.
  4. Lin Yuan and Zhang Zhongzhi*. Influence of trap location on the efficiency of trapping in dendrimers and regular hyperbranched polymers. The Journal of Chemical Physics, 2013, 138:094905.
  5. Zhang Yichao, Zhou Shi, Zhang Zhongzhi, Guan Jihong, and Zhou Shuigeng, Rumor evolution in social networks. Physical Review E, 2013, 87:032133.
  6. Liu Hongxiao and Zhang Zhongzhi*. Laplacian spectra of recursive treelike small-world polymer networks: Analytical solutions and applications. The Journal of Chemical Physics, 2013, 138:114904.
  7. Comellas Francesc, Miralles Alicia, Liu Hongxiao, and Zhang Zhongzhi. The number of spanning trees of an infinite family of outerplanar, small-world and self-similar graphs. Physica A, 2013, 392:2803-2806.
  8. Julaiti Alafate, Wu Bin, Zhang Zhongzhi*. Eigenvalues of normalized Laplacian matrices of fractal trees and dendrimers: Analytical results and applications. The Journal of Chemical Physics, 2013, 138:204116.
  9. Lin Yuan and Zhang Zhongzhi*. Random walks in weighted networks with a perfect trap: An application of Laplacian spectra. Physical Review E, 2013, 87:062140.
  10. Wu Bin and Zhang Zhongzhi*. Controlling the efficiency of trapping in treelike fractals. The Journal of Chemical Physics, 2013, 139:024106.
  11. Wu Yonghui, Li Xing, Rong Zhihai, and Zhang Zhongzhi, Different behaviors of cooperation in scale-free networks with identical degree sequence. Chaos, Solitons & Fractals, 2013, 56:91-95.

2012

  1. Zhang Zhongzhi, Sheng Yibin, and Jiang Qiang. Monomer-dimer model on a scale-free small-world network. Physica A, 2012, 391:828-833.
  2. Wu Bin, Zhang Zhongzhi*, and Chen Guanrong. Properties and applications of Laplacian spectra for the Koch networks. Journal of Physics A: Mathematical and Theoretical, 2012, 45:025102. (Cover paper) (Featured article)
  3. Zhang Zhongzhi, Yang Yihang, and Lin Yuan. Random walks in modular scale-free networks with multiple traps. Physical Review E, 2012, 85:011106.
  4. Zhang Yichao, Zhou Shi, Zhang Zhongzhi, Guan Jihong, Zhou Shuigeng, and Chen Guanrong. Traffic fluctuations on weighted networks. IEEE Circuits and Systems Magazine, 2012, 1:33-44. (Feature article)
  5. Zhang Zhongzhi, Wu Bin, and Lin Yuan. Counting spanning trees in small-world Farey graph. Physica A, 2012, 391:3342-3349.
  6. Li Pengcheng and Zhang Zhongzhi*. Continuous-time quantum walks on nonorientable surfaces: Analytical solutions for Möbius strips and Klein bottles. Journal of Physics A: Mathematical and Theoretical, 2012, 45:285301.
  7. Zhang Zhongzhi, Hu Zhengyi, Sheng Yibin, and Chen Guanrong. Exact eigenvalue spectrum of a class of fractal scale-free networks. EPL (Europhysics Letters), 2012, 99:10007.
  8. Wu Bin, Lin Yuan, Zhang Zhongzhi*, and Chen Guanrong. Trapping in dendrimers and regular hyperbranched polymers. The Journal of Chemical Physics, 2012, 137:044903.
  9. Wu Shunqi, and Zhang Zhongzhi*. Eigenvalue spectrum of transition matrix of dual Sierpinski gaskets and its applications. Journal of Physics A: Mathematical and Theoretical, 2012, 45:345101.
  10. Lin Yuan, Julaiti Alafate, and Zhang Zhongzhi*. Mean first-passage time for random walks in general graphs with a deep trap. The Journal of Chemical Physics, 2012, 137:124104.
  11. Zhang Zhongzhi, Sheng Yibin, Hu Zhengyi, and Chen Guanrong. Optimal and suboptimal networks for efficient navigation measured by mean-first passage time of random walks. Chaos, 2012, 22:043129.

2011

  1. Zhang Zhongzhi and Comellas Francesc. Farey Graphs as Models for Complex Networks. Theoretical Computer Science, 2011, 412(8-10):865-875.
  2. Zhang Zhongzhi, Liu Hongxiao, Wu Bin, and Zou Tao. Spanning trees in a fractal scale-free lattice. Physical Review E, 2011, 83:016116.
  3. Zhang Zhongzhi, Lin Yuan, and Ma Youjun. Effect of trap position on the efficiency of trapping in treelike scale-free networks. Journal of Physics A: Mathematical and Theoretical, 2011, 44:075102.
  4. Zhang Zhongzhi, and Gao Shuyang. Scaling of mean first-passage time as efficiency measure of nodes sending information on scale-free Koch networks. European Physical Journal B, 2011, 80:209-216.
  5. Chu Xiangwei, Zhang Zhongzhi, Guan Jihong, and Zhou Shuigeng. Epidemic spreading with nonlinear infectivity in weighted scale-free networks. Physica A, 2011, 390:471-481.
  6. Zhan Weihua, Zhang Zhongzhi, Guan Jihong, and Zhou Shuigeng. Evolutionary method for finding communities in bipartite networks. Physical Review E, 2011, 83:066120.
  7. Wu Shunqi, Zhang Zhongzhi*, and Chen Guanrong. Random walks on dual Sierpinski gaskets. European Physical Journal B, 2011, 82: 91-96.
  8. Zhang Zhongzhi, Li Xintong, Lin Yuan, and Chen Guanrong. Random walks in small-world exponential treelike networks. Journal of Statistical Mechanics: Theory and Experiment, 2011, P08013.
  9. Zhang Yichao, Zhang Zhongzhi, Guan Jihong, and Zhou Shuigeng, Diffusion-annihilation processes in weighted scale-free networks with identical degree sequence. Journal of Statistical Mechanics: Theory and Experiment, 2011, P10001.
  10. Li Pengcheng, Zhang Zhongzhi*, Xu Xinping, and Wu Yonghui, Dissimilar behaviors of coherent exciton transport on scale-free networks with identical degree sequence. Journal of Physics A: Mathematical and Theoretical, 2011, 44:445001. (Cover paper) (Featured article)
  11. Zhang Zhongzhi, Wu Bin, and Chen Guanrong. Complete spectrum of stochastic master equation for random walks on treelike fractals. EPL (Europhysics Letters), 2011, 96:40009.
  12. Zhang Zhongzhi, Yang Yihang, and Gao Shuyang. Role of fractal dimension in random walks on scale-free networks. European Physical Journal B, 2011, 84:331-338.
  13. Lin Yuan, Wu Bin, Zhang Zhongzhi*, and Chen Guanrong. Counting spanning trees in self-similar networks by evaluating determinants. Journal of Mathematical Physics, 2011, 52:113303.
  14. Zhang Zhongzhi, Julaiti Alafate, Hou Baoyu, Zhang Hongjuan, and Chen Guanrong. Mean first-passage time for random walks on undirected networks. European Physical Journal B, 2011, 84:691-697.

2010

  1. Chu Xiangwei, Zhang Zhongzhi, Guan Jihong, Zhou Shuigeng, and Li Mo. Different behaviors of epidemic spreading in scale-free networks with identical degree sequence. Journal of Physics A: Mathematical and Theoretical, 2010, 43:065001.
  2. Miralles Alicia, Comellas Francesc, Chen Lichao, and Zhang Zhongzhi. Planar unclustered scale-free graphs as models for technological and biological networks. Physica A, 2010, 389:1955-1964.
  3. Zhang Zhongzhi, Qi Yi, Zhou Shuigeng, Shuyang Gao, and Guan Jihong. Explicit determination of mean first-passage time for random walks on deterministic uniform recursive trees, Physical Review E, 2010, 81:016114.
  4. Zhang Yichao, Zhang Zhongzhi, Guan Jihong, and Zhou Shuigeng. An analytic derivation of clustering coefficients for weighted networks. Journal of Statistical Mechanics: Theory and Experiment, 2010, P03013.
  5. Zhang Zhongzhi, Wu Bin, Zhang Hongjuan, Zhou Shuigeng, Guan Jihong, and Wang Zhigang. Determining global mean-first-passage time of random walks on Vicsek fractals using eigenvalues of Laplacian matrices. Physical Review E, 2010, 81:031118.
  6. Zhang Zhongzhi, Liu Hongxiao, Wu Bin, and Zhou Shuigeng. Enumeration of spanning trees in a pesudofractal scale-free web. EPL (Europhysics Letters), 2010, 90:68002.
  7. Zhang Yichao, Zhang Zhongzhi, Guan Jihong, and Zhou Shuigeng. Deterministic weighted scale-free small-world networks. Physica A, 2010, 389:3316-3324.
  8. Zhang Zhongzhi, Gao Shuyang, Chen Lichao, Zhou Shuigeng, Zhang Hongjuan, and Guan Jihong. Mapping Koch curves into scale-free small-world networks. Journal of Physics A: Mathematical and Theoretical, 2010, 43:395101.
  9. Zhang Zhongzhi, Gao Shuyang, and Xie Wenlei. Impact of degree heterogeneity on the behavior of trapping in Koch networks. Chaos, 2010, 20:043112.
  10. Lin Yuan, Wu Bin, and Zhang Zhongzhi*. Determining mean first-passage time on a class of treelike regular fractals. Physical Review E, 2010, 82:031140.
  11. Zhang Zhongzhi, and Lin Yuan. An alternative approach to determining average distance in a class of scale-free modular networks. Journal of Statistical Mechanics: Theory and Experiment, 2010, P12017.

2009

  1. Zhang Zhongzhi, Fang Lujun, Zhou Shuigeng, Guan Jihong. Effects of accelerating growth on the evolution of weighted complex networks. Physica A, 2009, 388:225-232.
  2. Comellas Francesc, Zhang Zhongzhi, Chen Lichao. Self-similar non-clustered planar graphs as models for complex networks. Journal of Physics A: Mathematical and Theoretical, 2009, 42: 045103.
  3. Zhang Zhongzhi, Chen Lichao, Fang Lujun, Zhou Shuigeng, Zhang Yichao, and Guan Jihong. The rigorous solution for the average distance for a Sierpinski network. Journal of Statistical Mechanics: Theory and Experiment, 2009, P02034.
  4. Zhang Zhongzhi, Qi Yi, Zhou Shuigeng, Xie Wenlei, and Guan Jihong. Exact solution for mean first-passage time on a pseudofractal scale-free web. Physical Review E, 2009, 79: 021127.
  5. Zhang Zhongzhi, Zhou Shuigeng, Zou Tao, Chen Lichao, and Guan Jihong. Different thresholds of bond percolation in scale-free networks with identical degree sequence.  Physical Review E, 2009, 79: 031110. (This work was selected for the March 15, 2009 issue of Virtual Journal of Biological Physics Research, See here.)
  6. Zhang Zhongzhi, Zhang Yichao, Zhou Shuigeng, Yin Ming, and Guan Jihong. Influences of degree inhomogeneity on average path length and random walks in disassortative scale-free networks. Journal of Mathematical Physics, 2009, 50: 033514.
  7. Zhang Zhongzhi, Guan Jihong, Xie Weilen, Qi Yi, and Zhou Shuigeng. Random walks on the Apollonian network with a single trap. EPL (Europhysics Letters), 2009, 86: 10006.
  8. Qi Yi, Zhang Zhongzhi*, Ding Bailu, Zhou Shuigeng, and Guan Jihong. Structural and spectral properties of a family of deterministic recursive trees: Rigorous solutions. Journal of Physics A: Mathematical and Theoretical, 2009, 42: 165103.
  9. Guan Jihong, Wu Yuewen, Zhang Zhongzhi*, Zhou Shuigeng, and Wu Yonghui. A unified model for Sierpinski networks with scale-free scaling and small-world effect. Physica A, 2009, 388: 2571-2578.
  10. Li Xing, Wu Yonghui, Rong Zhihai, Zhang Zhongzhi, and Zhou Shuigeng. The prisoner’s dilemma in structured scale-free networks. Journal of Physics A: Mathematical and Theoretical, 2009, 42:245002.
  11. Zhang Zhongzhi, Zhou Shuigeng, Xie Wenlei, Chen Lichao, Lin Yuan, and Guan Jihong. Standard random walks and trapping on the Koch network with scale-free behavior and small-world effect, Physical Review E, 2009, 79:061113.
  12. Zhang Zhongzhi, Qi Yi, Zhou Shuigeng, Lin Yuan, and Guan Jihong. Recursive solutions for Laplacian spectra and eigenvectors of a class of growing treelike networks, Physical Review E, 2009, 80:016104.
  13. Zhang Zhongzhi, Guan Jihong, Ding Bailu, Chen Lichao, and Zhou Shuigeng. Contact graphs of disk packings as a model of spatial planar networks. New Journal of Physics, 2009, 11:083007.
  14. Chu Xiangwei, Guan Jihong, Zhang Zhongzhi, and Zhou Shuigeng. Epidemic spreading in weighted scale-free networks with community structure. Journal of Statistical Mechanics: Theory and Experiment, 2009, P07043.
  15. Zhou Shuigeng and Zhang Zhongzhi. Complex networks and computing. Frontiers of Computer Science in China, 2009, 3(3): 322-323.
  16. Zhang Zhongzhi, Xie Wenlei, Zhou Shuigeng, Gao Shuyang, and Guan Jihong. Anomalous behavior of trapping on a fractal scale-free network. EPL (Europhysics Letters), 2009, 88: 10001.
  17. Zhang Zhongzhi, Lin Yuan, Zhou Shuigeng, Wu Bin, and Guan Jihong. Mean first-passage time for random walks on the T-graph, New Journal of Physics, 2009, 11: 103043.
  18. Zhang Zhongzhi, Lin Yuan, Gao Shuyang, Zhou Shuigeng, and Guan Jihong. Average distance in a hierarchical scale-free network: an exact solution. Journal of Statistical Mechanics: Theory and Experiment, 2009, P10022.
  19. Zhang Zhongzhi, Lin Yuan, Gao Shuyang, Zhou Shuigeng, Guan Jihong, and Li Mo. Trapping in scale-free networks with hierarchical organization of modularity, Physical Review E, 2009, 80: 051120.
  20. Zhang Zhongzhi, Xie Wenlei, Zhou Shuigeng, Li Mo, and Guan Jihong. Distinct scalings for mean first-passage time of random walks on scale-free networks with the same degree sequence, Physical Review E, 2009, 80:061111.

2008

  1. Zhang Zhongzhi, Comellas Francesc, Fertin Guillaume, Raspaud André, Rong Lili,Zhou Shuigeng. Vertex labeling and routing in expanded Apollonian networks. Journal of Physics A: Mathematical and Theoretical, 2008, 41: 035004.
  2. Zhang Zhongzhi, Chen Lichao, Zhou Shuigeng, Fang Lujun, Guan Jihong, Zou Tao. Analytical solution of average path length for Apollonian networks. Physical Review E, 2008, 77: 017102.
  3. Zhou Shuigeng, Hu Guobiao, Zhang Zhongzhi, Guan Jihong. An empirical study of Chinese language networks. Physica A, 2008, 387:3039-3047.
  4. Zhang Zhongzhi, Zhou Shuigeng, Zhao Shanghong, Guan Jihong. Degree and component size distributions in generalized uniform recursive tree. Journal of Physics A: Mathematical and Theoretical, 2008, 41:185101.
  5. Zhang Zhongzhi, Zhou Shuigeng, Qi Yi, Guan Jihong. Topologies and Laplacian spectra of a deterministic uniform recursive tree. The European Physical Journal B, 2008, 63: 507-513.
  6. Zhang Zhongzhi, Zhou Shuigeng, Chen Lichao, Guan Jihong. Transition from fractal to non-fractal scalings in growing scale-free networks. The European Physical Journal B, 2008, 64: 277-283.
  7. Zhang Zhongzhi, Zhou Shuigeng, Su Zhan, Zou Tao, Guan Jihong. Random Sierpinski network with scale-free small-world and modular structure. The European Physical Journal B, 2008, 65: 141-147.
  8. Zhang Zhongzhi, Zhou Shuigeng, Zou Tao, Chen Guisheng. Fractal scale-free networks resistant to disease spread. Journal of Statistical Mechanics: Theory and Experiment, 2008, P09008.
  9. Zhang Zhongzhi, Zhou Shuigeng, Chen Lichao, Yin Ming, Guan Jihong. The exact solution of mean geodesic distance for Vicsek fractals. Journal of Physics A: Mathematical and Theoretical, 2008, 41:485102.
  10. Wang Jianwei, Rong Lili, Zhang Liang, Zhang Zhongzhi. Attack vulnerability of scale-free networks due to cascading failures. Physica A, 2008, 387:6671-6678.
  11. Chen Lichao, Comellas Francesc, Zhang Zhongzhi. Self-similar planar graphs as models for complex networks. Nineteenth International Workshop on Combinatorial Algorithms, IWOCA, Nagoya, 2008:144-154.

2007

  1. Zhang Zhongzhi, Rong Lili,Zhou Shuigeng. A general geometric growth model for pseudofractal scale-free web. Physica A, 2007, 377: 329-339.
  2. Zhang Zhongzhi, Zhou Shuigeng, Zou Tao. Self-similarity, small-world, scale-free scaling, disassortativity, and robustness in hierarchical lattices. The European Physical Journal B, 2007, 56:259-271.
  3. Zhang Zhongzhi, Rong Lili, Wang Bing,Zhou Shuigeng, Guan Jihong. Local-world evolving networks with tunable clustering.  Physica A, 2007, 380:639-650.
  4. Zhang Zhongzhi, Zhou Shuigeng. Correlations in random Apollonian network. Physica A, 2007, 380:621-628.
  5. Zhou Tao, Wang Binghong, Jin Yindi, He Daren, Zhang Peipei, He Yue, Su Beibei, Chen Kan, Zhang Zhongzhi, Liu Jianguo, Modelling collaboration networks based on nonlinear preferential attachment, International Journal of Modern Physics C, 2007,18(2):297-314.
  6. Zhang Zhongzhi, Zhou Shuigeng, Fang Lujun, Guan Jihong, Zhang Yichao. Maximal planar scale-free Sierpinski networks with small-world effect and power-law strength-degree correlation. EPL (Europhysics Letters), 2007, 79: 38007.
  7. Zhang Zhongzhi, Zhou Shuigeng, Chen Lichao. Evolving pseudofractal networks. The European Physical Journal B, 2007, 58(3):337-344. (SCI-208II; EI-073710813065)
  8. Zhang Zhongzhi, Zhou Shuigeng, Wang Zhiyong, Shen Zhen. A geometric growth model interpolating between regular and small-world networks. Journal of Physics A: Mathematical and Theoretical, 2007, 40(39): 11863-11876.
  9. Zhang Zhongzhi, Zhou Shuigeng, Chen Lichao, Guan Jihong, Fang Lujun, Zhang Yichao. Recursive weighted treelike networks. The European Physical Journal B, 2007, 59(1):99-107.
  10. Zhang Zhongzhi, Zhou Shuigeng, Shen Zhen, Guan Jihong. From regular to growing small-world networks. Physica A, 2007, 385:765-772.
  11. Zhang Zhongzhi, Zhou Shuigeng, Guan Jihong. Scale-free Networks by Clique Evolution. Dynamics of Continuous, Discrete, and Impulsive Systems – Series B, 2007, 14(S7): 18-22.
  12. Zhang Zhongzhi, Zhou Shuigeng, Zou Tao, Chen Lichao, Guan Jihong. Incompatibility networks as models of scale-free small-world graphs. The European Physical Journal B, 2007, 60(2):259-264.

2006

  1. Zhang Zhongzhi, Rong Lili, Zhou Shuigeng. Evolving Apollonian networks with small-world scale-free topologies. Physical Review E, 2006, 74: 046105. (SCI-101EW; EI- 064210178640)
  2. Zhang Zhongzhi, Rong Lili,Guo Chonghui. A deterministic small-world network created by edge iterations, Physica A, 2006, 363(2):567-572.
  3. Zhang Zhongzhi, Rong Lili, Comellas Francesc. Evolving small-world networks with geographical attachment preference. Journal of Physics A: Mathematical and General, 2006, 39(13): 3253-3261.
  4. Zhang Zhongzhi, Rong Lili, Comellas Francesc. High dimensional random Apollonian networks. Physica A, 2006, 364: 610-618.
  5. Zhang Zhongzhi, Comellas Francesc, Fertin Guillaume, Rong Lili. High dimensional Apollonian networks. Journal of Physics A: Mathematical and General, 2006, 39(8): 1811-1818.
  6. Zhang Zhongzhi, Rong Lili. Deterministic scale-free networks created in a recursive manner. International Conference on Communications Circuits and Systems 2006,Guilin China, 2006:2683-2686. (Invited paper)