Publications

Selected Publications(* for corresponding author)

[66]2024年先进机器人及仿真技术大会特邀专家大会报告

[65]Y. Zhao, Zhang J, etc.Deep-learning based autonomous-exploration for UAV navigation, Knowledge-Based Systems, 2024.[SCI]

[64]H. Wei, Zhang J, etc.Evolutionary Dynamics of Direct and Indirect Reciprocity on Networked Populations, Swarm and Evolutionary Computation, 2024.[SCI]

[63]W. Jiao, Zhang J, Open-set recognition with long-tail sonar images[J]. Expert Systems with Applications, 2024.[SCI]

[62]张春燕，谢广明，智能群体博弈, 清华大学出版社, 2024.

[61]Lin D, Han J, Li K, Zhang, J., Payload transporting with two quadrotors by centralized reinforcement learning method[J]. IEEE Transactions on Aerospace and Electronic Systems, 2023.[SCI]

[60]Pu X, Zhang J., etc.Multi-target Real-time Path Planning Using Double Adaptive A Algorithm[J]. IEEE Transactions on Aerospace and Electronic Systems, 2023.[SCI]

[59] Wei H, Zhang J, etc. Evolutionary Dynamics of Direct and Indirect Reciprocities With Directional Interactions[J]. IEEE Transactions on Computational Social Systems, 2023.

[58] 张建磊. 群体智能与演化博弈, 人民邮电出版社, 专著，2022.

[57]W Jiao, J. Zhang*, Sonar images classification while facing long-tail and few-shot，IEEE Transactions on Geoscience and Remote Sensing, 2022.[SCI]

[56]Z Wang, J Zhang，A task allocation algorithm for a swarm of unmanned aerial vehicles based on bionic wolf pack method, Knowledge-Based Systems, 2022.[SCI]

[55]R Zhu, Z Chen, Z Zhang, Z Liu, J Zhang，Event-Triggered Control for Weighted Networked Evolutionary Games With Threshold，IEEE Transactions on Circuits and Systems II: Express Briefs, 2022

[54]L Zhao, R Li, J Han, J Zhang，A distributed model predictive control-based method for multidifferent-target search in unknown environments，IEEE Transactions on Evolutionary Computation, 2022

[53]P van den Berg, S Liu, T Wenseleers, J. Zhang*, Misrepresentation of group contributions undermines conditional cooperation in a human decision making experiment,Scientific Reports, 2022

[52] C. Zhang, S. Liu, Z. Wang, F. J. Weissing, J. Zhang*, The “self-bad, partner-worse” strategy inhibits cooperation in networked populations. Information Sciences, 2021. [SCI]

[51] X. Li, J. Zhang*, J. Han, Trajectory planning of load transportation with multi-quadrotors based on reinforcement learning algorithm, Aerospace Science and Technology, 2021. [SCI]

[50]Jianlei Zhang*，Evolutionary dynamics of strategies without complete information on complex networks，3^rd China System Science Conference, 2019.5.18-19.

[49]Jian Zhang, Jianlei Zhang*，The Coverage Control Solutions Based on Evolutionary Game Theory in the Multi-agent Systems，2019 12th Asian Control Conference (ASCC).

[48] S. Liu, J. Zhang*, Co-evolution dynamics between individual strategy and gaming environment under the feedback control, The 11th edition of the International Conference on Computational Collective Intelligence, 2019.

[47] S. Liu, J. Zhang*, The networked division of labor game based on adaptive dynamics, 15th IFAC Symposium on Large Scale Complex Systems: Theory and Applications, 2019.

[46] J. ZHANG, M. Cao, Strategy competition dynamics of multi-agent systems in the framework of evolutionary game theory, IEEE Transactions on Circuits and Systems II: Express Briefs, 2019. [SCI]

[45] 张建磊, 李智琦, 曹明, 多智能体系统中基于演化博弈的群体状态控制, 《控制理论与应用》,2018.

[44] C. Zhang, Q. Li, Y. Zhu, J. ZHANG*, Dynamics of task allocation based on game theory in multi-agent systems, IEEE Transactions on Circuits and Systems II: Express Briefs, 2018. [SCI]

[43] J. ZHANG*, et al, Evolutionary game dynamics of multiagent systems on multiple community networks, IEEE Transactions on Systems, Man and Cybernetics: Systems, 2018. [SCI]

[42] J. ZHANG*, et al, Promoting cooperation by setting a ceiling payoff for defectors under three-strategy public good games, International Journal of Systems Science, 2018. [SCI]

[41] J. ZHANG*, et al, Effects of strategy switching and network topology on decision making in multi-agent systems, International Journal of Systems Science, 2018. [SCI]

[40] J. Zhang*, et al, Evolutionary dynamics of strategies without complete information on complex networks, Asian Journal of Control, 2018. [SCI]

[39] C. Zhang, Q. Li, Z. Xu, J. ZHANG*, Stochastic Dynamics of Division of Labor Games in Finite Populations, Knowledge-Based Systems, 2018. [SCI]

[38] J. ZHANG*, et al, Strategy evolution driven by switching probabilities in structured multi-agent systems, International Journal of Systems Science, 2018. [SCI]

[37] J. Zhang*, et al, Evolutionary dynamics of division of labor games with selfish agents, Europhysics Letters, 2018. [SCI]

[36] J. Li, C. Zhang, Q. Sun, Z. Chen, J. Zhang, Changing the Intensity of Interaction Based on Individual Behavior in the Iterated Prisoner’s Dilemma Game, IEEE Transactions on Evolutionary Computation, 21 (4), 506-517,2017.[SCI]

[35] Y. Zhu, Q. Li, J. Zhang*, Multiple strategy competition among structured populations, The Chinese Congress of Automation, 2017. [EI]

[34] Z. Xu, Q. Li, J. Zhang*, Collective actions in three types of continuous public goods games in spatial networks, The 24th International Conference on Neural Information Processing (ICONIP 2017), 2017. [EI]

[33] J.Zhang, Q. Li, X. Yang, Y. Zhu, The coordination behaviors of robots in the framework of evolutionary game theory, IEEE International Conference on Robotics and Biomimetics, 2017. [EI]

[32] Q. Li, X. Yang, Y. Zhu, J. Zhang*, Self-organized Task Allocation in a Swarm of E-puck Robots, 2017 Chinese Intelligent Automation Conference, 2017. [EI]

[31] Z. Xu, J. Zhang*, et al, Decision making in multi-agent systems based on the evolutionary game with switching probabilities, The 13th Chinese Intelligent Systems Conference, 2017. [EI]

[30] J. ZHANG, et al, Strategy evolution driven by switching probabilities in structured multi-agent systems,International Journal of Systems Science, 2017. [SCI]

[29] Y. Zhu, J. Zhang*, et al, Evolutionary dynamics of strategies for threshold snowdrift games on complex networks，Knowledge-Based Systems, 2017. [SCI]

[28] Z. Xu, J. Zhang*, et al, Fixation of strategies driven by switching probabilities in evolutionary games, Europhysics Letters, 2017. [SCI]

[27] C. Zhang, Y. Zhu, Z. Chen, J. Zhang*, Punishment in the form of shared cost promotes altruism in the cooperative dilemma games, Journal of Theoretical Biology, 2017.[SCI]

[26] J. Zhang, et al, Evolutionary games with different time scales of strategy updating, The 29th Chinese Control and Decision Conference, 2017. [EI]

[25] J. Zhang, et al, Crucial role of contact-based strategy updating in networked multi-agent systems, Invited session paper, CSSC 2017.

[24] J. Zhang, et al, Evolutionary game dynamics driven by setting a ceiling in payoffs of defectors, Invited session paper, The 36th Chinese Control Conference, 2017. [EI]

[23] J. Zhang, et al, Fostering cooperation of selfish agents through public goods in relation to the loners, Physical review E, 2016. [SCI]

[22] J. Zhang, et al, Fixation of competing strategies when interacting agents differ in the time scale of strategy updating, Physical review E, 2016. [SCI]

[21] J. Li, C. Zhang*, Z. Liu, Q. Sun*, Z. Chen, J. Zhang, Changing intensity of interaction can resolve prisoner’s dilemmas, Europhysics Letters, 2016. [SCI]

[20] J. Li, C. Zhang*, Q. Sun, J. Zhang, Evolution of cooperation driven by changing intensity of interaction in small-world network, FLINS2016, Roubaix, France, 2016,08.24-26.

[19] J. Zhang, Z. Chen, Z. Liu, C. Zhang, Evolutionary dynamics and individual heterogeneity in multi-agent networking systems, The 35th Chinese Control Conference, Chengdu, China, 2016. [EI]

[18] J. Zhang, et al, Contact-based model for strategy updating and evolution of cooperation, Physica D: Nonlinear Phenomena, 2015,12. [SCI]

[17] J. Zhang, et al, How insurance affects altruistic provision in threshold public goods games, Scientific Reports, 2015,5. [SCI]

[16] J. Zhang, Mechanisms to foster cooperation in public goods games, The 8th International Congress on Industrial and Applied Mathematics, 2015. [EI]

[15] J. Zhang, et al, Crucial role of strategy updating for evolution in interaction networks, Physical review E, 2015, 91,042101. [SCI]

[14] J. Zhang, et al, Evolutionary games played by multi-agent system with memory, The European Physical Journal B. 2015, 88: 136. [SCI]

[13] J. Zhang, et al, The evolution of altruism in spatial threshold public goods games via an insurance mechanism, Journal of Statistical Mechanics: Theory and Experiment, 2015,5, p05001. [SCI]

[12] J. Zhang, et al, Cooperation in Networks Where the Learning Environment Differs from the Interaction Environment, PLoS ONE, e90288, 2014. [SCI]

[11] J. Zhang, et al, Evolution of self-organized division of labor, The 17th international union for the study of social insects (IUSSI14), Australia, 2014. [EI]

[10] J. Zhang, et al, Coexistence of competing strategies through contact-based dynamics in structured populations, The 33rd Benelux Meeting on Systems and Control, The Netherlands, 2014.

[9] J. Zhang, et al, Cooperation with potential leaders in evolutionary game theory, IEEE World Congress on Computational Intelligence, 2014. [EI]

[8] J. Zhang,et al, Evolution of self-organized division of labor, The 17th international union for the study of social insects (IUSSI14), 2014, Australia.

[7] J. Zhang, et al, Does insurance against punishment undermine cooperation in the evolution of public goods games? Journal of Theoretical Biology 321, 78-82, 2013. [SCI]

[6] J. Zhang, et al, The evolution of cooperation in spatial groups, Chaos, Solitons & Fractals 44,131-136, 2011. [SCI]

[5] J. Zhang,et al, Resolution of the stochastic strategy spatial prisoner’s dilemma by means of particle swarm optimization, PLoS ONE, e21787, 2011. [SCI]

[4] J. Zhang,et al, Elimination mechanism promotes cooperation in coevolutionary prisoner’s dilemma games, Physica A Statistical Mechanics and its Applications 389,4081–4086, 2010. [SCI]

[3] J. Zhang, et al, Cooperation enhanced by the ‘survival of the fittest’ rule in prisoner’s dilemma games on complex networks, Journal of Theoretical Biology 267, 41–47, 2010. [SCI]

[2] J. Zhang, et al, Cooperation in evolutionary games on complex networks, The 49th IEEE Conference on Decision and Control (CDC), 1785-1790, 2010, Atlanta. [EI]

[1] Z. Chen, T. Chu, J. Zhang, Swarm splitting and multiple targets seeking in multi-agent dynamic systems, The 49th IEEE Conference on Decision and Control (CDC), 4577-4582, 2010, Atlanta. [EI]