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Ezen az oldalon az NKFI Elektronikus Pályázatkezelő Rendszerében nyilvánosságra hozott projektjeit tekintheti meg.
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A. Szolnoki and M. Perc: Coevolution of teaching activity promotes cooperation, New Journal of Physics 10, 043036, 2008 | G. Szabó, A. Szolnoki, and I. Borsos: Self-organizing patterns maintained by competing associations in a six-species predator-prey model, Phyisical Review E 77, 041919, 2008 | M. Perc, A. Szolnoki, and G. Szabó: Restricted connections among distinguished players support cooperation, Phyisical Review E 78, 066101, 2008 | A. Szolnoki, M. Perc, and Z. Danku: Making new connections towards cooperation in the prisoner's dilemma game, EPL 84, 50007, 2008 | G. Szabó and A. Szolnoki: Cooperation in spatial prisoner's dilemma with two types of players for increasing number of neighbors, Phyisical Review E 79, 016106, 2009 | A. Szolnoki, and M. Perc: Promoting cooperation in social dilemmas via simple coevolutionary rules, Eur. Phys. J. B 67, 337, 2009 | M. Droz, J. Szwabinski, and G. Szabó: Motion of influential players can support cooperation in Prisoner's Dilemma, Eur. Phys. J. B 71, 579, 2009 | A. Szolnoki and M. Perc: Resolving social dilemmas on evolving random networks, EPL 86, 30007, 2009 | A. Szolnoki, M. Perc, G. Szabó, and H-U. Stark: Impact of aging on the evolution öof cooperation in the spatial prisoner's dilemma games, Phys. Rev. E 80, 021901, 2009 | A. Szolnoki, M. Perc, and G. Szabó: Topology independent impact of noise on cooperation in spatial public goods game, Phys. Rev. E 80, 056109, 2009 | A. Szolnoki, M. Perc, and G. Szabó: Phase diagrams for three-strategy evolutionary prisoner's dilemma games on regular graphs, Phys. Rev. E 80, 056104, 2009 | A. Szolnoki, J. Vukov, and G. Szabó: Selection of noise level in strategy adaption for spatial social dilemmas, Phys. Rev. E 80, 056112, 2009 | A. Szolnoki and Perc: Emergence of multilevel selection in the prisoner's dilemma game on coevolving random networks, New J. Phys. 11, 093033, 2009 | G. Szabó, A. Szolnoki, and J. Vukov: Selection of dynamical rules in the spatial prisoner's dilemma games, EPL 87, 18007, 2009 | M. Perc and A. Szolnoki: Coevolutionary games - a mini review, BioSystems 99, 109, 2010 | D. Helbing, A. Szolnoki, M. Perc, and G. Szabó: Evolutionary establishment of mora and double moral standards through spatial interactions, PLoS Comp. Biol. 6, e1000758, 2010 | D. Helbing, A. Szolnoki, M. Perc, and G. Szabó: Defector-accelerated cooperativness and punishment in public goods games with mutations, Phys. Rev. 81, 057104, 2010 | D. Helbing, A. Szolnoki, M. Perc, and G. Szabó: Punish, but not too hard: How costly punishment spreads in the spatial public goods games, New J. Phys. 12, 083005, 2010 | A. Szolnoki and M. Perc: Impact of critical mass on the evolution of cooperation in spatial public goods games, Phys. Rev. E 81, 057101, 2010 | G. Szabó, T. Tomé, and I. Borsos: Probability currents and entropy production in nonequilibrium lattice systems, Phys. Rev. E 82, 011105, 2010 | G. Szabó, A. Szolnoki, M. Varga, and L. Hanusovszky: Ordering in spatial evolutionary games for pairwise collective strategy updates, Phys. Rev. E 82, 026110, 2010 | A. Szolnoki, Z. Wang, J. Wang, and X. Zhu: Dynamically generated cyclic dominance in spatial prisoner's dilemma games, Phys. Rev. E 82, 036110, 2010 | A. Szolnoki and M. Perc: Reward and cooperation in the spatial public goods games, EPL 92, 38003, 2010 | A. Szolnoki, G. Szabó, and M. Perc: Phase diagrams for the spatial public goods game with pool-punishment, Phys. Rev. E 83, 036101, 2011 | G. Szabó and A. Szolnoki: Selfishness, fraternity, and other-regarding preference in spatial evolutionary games, J. Theor. Biol. 299, 81, 2012 | A. Szolnoki, N.-G. Xie, C. Wang, and M. Perc: Imitating emotions instead of strategies in spatial games elevates social welfare, EPL 96, 38002, 2011 | A. Szolnoki, G. Szabó, and L. Czakó: Competition of individual and institutional punishments in spatial public goods games, Phys. Rev. E 84, 046106, 2012 | A. Szolnoki and M. perc: Group-size effects on the evolution of cooperation in the spatial public goods game, Phys. Rev. E 84, 047102, 2011 | Z. Wang, A. Szolnoki, and M. Perc: Evolution of public cooperation on interdependent networks: The impact of biased utility functions, EPL 97, 48001, 2012 | A. Szolnoki and M. Perc: Conditional strategies and the evolution of cooperation in spatial public goods games, Phys. Rev. E 85, 026104, 2012 | Z. Wang, A. Szolnoki, and M. Perc: Percolation threshold determines the optimal population density for public goods games, Phys. Rev. E 84, 037101, 2012 | M. Perc and A. Szolnoki: Self-organization of punishment in structured populations, New J. Phys. 14, 043013, 2012 | Szabó G.: Az együttműködés természete, Magyar Tudomány, megjelenés a júniusi számban, 2012 | Z. Wang, A. Szolnoki, and M. Perc: If players are sparse social dilemmas are too: Importance of percolation for evolution of cooperation, Scientific Reports 2, 369, 2012 |
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