M. Perc, A. Szolnoki:
Self-organization of punishment in structured populations
New J. Phys.
14 (2012) 043013
G. Szabó, A. Szolnoki:
Selfishness, fraternity, and other-regarding preference in spatial evolutionary games J. Theor. Biol.
299 (2012) 81-87
Z. Wang, A. Szolnoki, M. Perc:
Percolation threshold determines the optimal population density for public cooperation Phys. Rev. E
85 (2012) 037101
A. Szolnoki, M. Perc:
Conditional strategies and the evolution of cooperation in spatial public goods games Phys. Rev. E
85 (2012) 026104
Z. Wang, A. Szolnoki, M. Perc:
Evolution of public cooperation on interdependent networks: The impact of biased utility functions EPL
97 (2012) 48001
A. Szolnoki, M. Perc:
Group-size effects on the evolution of cooperation in the spatial public goods game Phys. Rev. E
84 (2011) 047102
A. Szolnoki, G. Szabó, L. Czakó:
Competition of individual and institutional punishments in spatial public goods games Phys. Rev. E
84 (2011) 046106
A.
Szolnoki, N.-G. Xie, C. Wang, M. Perc: Imitating emotions instead of strategies in spatial games elevates social welfare EPL
96 (2011) 38002
A. Szolnoki, G. Szabó, M. Perc:
Phase diagrams for the spatial public goods game with pool punishment Phys. Rev. E
83 (2011) 036101
A.
Szolnoki and M. Perc: Reward and cooperation in the spatial public goods game EPL
92 (2010) 38003
A. Szolnoki, Z. Wang, J. Wang, X. Zhu:
Dynamically generated cyclic dominance in spatial prisoner's dilemma games Phys. Rev. E
82 (2010) 036110
G. Szabó, A. Szolnoki, M. Varga, L. Hanusovszky:
Ordering in spatial evolutionary games for pairwise collective strategy updates Phys. Rev. E
82 (2010) 026110
D.
Helbing, A. Szolnoki, M. Perc, G. Szabó:
Punish, but not too hard: how costly punishment spreads in the spatial public goods game New J. Phys.
12 (2010) 083005
G.
Szabó, A. Szolnoki, and J. Vukov: Mechanisms Supporting Cooperation for the Evolutionary Prisoner's Dilemma Games in
Econophysics and Economics of Games, Social Choices and Quantitative Techniques (2010) pp.24-31, Springer
D.
Helbing, A. Szolnoki, M. Perc, G. Szabó:
Defector-accelerated cooperativeness and punishment in public goods games with mutations Phys. Rev. E
81 (2010) 057104
A. Szolnoki and M. Perc:
Impact of critical mass on the evolution of cooperation in spatial public goods games Phys. Rev. E
81 (2010) 057101
D.
Helbing, A. Szolnoki, M. Perc, G. Szabó:
Evolutionary establishment of moral and double moral standards through spatial interactions PLoS Comput. Biol.
6 (2010) e1000758
M.
Perc and A. Szolnoki:
Coevolutionary
games - a mini review BioSystems
99 (2010) 109
A.
Szolnoki, J. Vukov, and G. Szabó: Selection
of noise level in strategy adoption for spatial social dilemmas Phys.
Rev. E 80 (2009) 056112
A.
Szolnoki and M. Perc: Resolving
social dilemmas on evolving random networks EPL
86 (2009) 30007
G.
Szabó, A. Szolnoki, and J. Vukov: Selection
of dynamical rules in spatial Prisoner's Dilemma games EPL
87 (2009) 18007
A.
Szolnoki, M. Perc, and G. Szabó: Phase
diagrams for three-strategy evolutionary prisoner's dilemma games on
regular graphs Phys.
Rev. E 80 (2009) 056104
A.
Szolnoki and M. Perc: Emergence
of multilevel selection in the prisoner's dilemma game on coevolving
random networks New
J. Phys. 11 (2009) 093033
A.
Szolnoki, M. Perc, and G. Szabó: Topology
independent impact of noise on cooperation in spatial public goods
games Phys.
Rev. E 80 (2009) 056109
A.
Szolnoki, M. Perc, G. Szabó, and H.-U. Stark: Impact
of aging on the evolution of cooperation in the spatial prisoner's
dilemma game Phys.
Rev. E 80 (2009) 021901
A.
Szolnoki and M. Perc: Promoting
cooperation in social dilemmas via simple coevolutionary rules Eur.
Phys. J. B 67 (2009) 337
G.
Szabó and A. Szolnoki: Cooperation
in spatial prisoner's dilemma with two types of players for
increasing number of neighbors Phys.
Rev. E 79 (2009) 016106
A.
Szolnoki, M. Perc, and Z. Danku: Making
new connections towards cooperation in the prisoner's dilemma game EPL
84 (2008) 50007
M.
Perc, A. Szolnoki, and G. Szabó: Restricted
connections among distinguished players support cooperation Phys.
Rev. E 78 (2008) 066101
G.
Szabó, A. Szolnoki, and I. Borsos: Self-organizing
patterns maintained by competing associations in a six-species
predator-prey model Phys.
Rev. E 77 (2008) 041919
A.
Szolnoki and M. Perc: Coevolution
of teaching activity promotes cooperation New
J. Phys. 10 (2008) 043036
A.
Szolnoki, M. Perc, and G. Szabó: Diversity
of reproduction rate supports cooperation in the prisoner's dilemma
game on complex networks Eur.
Phys. J. B 61 (2008) 505
J.
Vukov, G. Szabó, and A. Szolnoki: Evolutionary
Prisoner's Dilemma game on the Newman-Watts networks Phys.
Rev. E 77 (2008) 026109
A.
Szolnoki, M. Perc, and Z. Danku: Towards
effective payoffs in the prisoner's dilemma game on scale-free
networks Physica
A 387 (2008) 2075
G.
Szabó and A. Szolnoki: Phase
transitions induced by variation of invasion rates in spatial cyclic
predator-prey models with four or six species Phys.
Rev. E 77 (2008) 011906
M.
Perc and A. Szolnoki: Social
diversity and promotion of cooperation in the spatial prisoner's
dilemma game Phys.
Rev. E 77 (2008) 011904
G.
Szabó, A. Szolnoki, and G. A. Sznaider: Segregation
process and phase transition in cyclic predator-prey models with even
number of species Phys.
Rev. E 76 (2007) 051921
M.
Perc and A. Szolnoki: Noise-guided
evolution within cyclical interactions New
J. Phys. 9 (2007) 267
M.
Perc, A. Szolnoki, and G. Szabó: Cyclical
interactions with alliance-specific heterogeneous invasion rates Phys.
Rev. E 75 (2007) 052102
A.
Szolnoki and G. Szabó: Cooperation
enhanced by inhomogeneous activity of teaching for evolutionary
Prisoner's dilemma games Europhys.
Lett. 77 (2007) 30004
J.
Vukov, G. Szabó, and A. Szolnoki: Cooperation
in noisy case: prisoner's dilemma game on two types of regular random
graphs Phys.
Rev. E 73 (2006) 067103
G.
Szabó, J. Vukov, and A. Szolnoki: Phase
diagrams for evolutionary Prisoner's Dilemma game on two-dimensional
lattices Phys.
Rev. E 72 (2005) 047107
G.
Ódor and A. Szolnoki: Cluster
mean-field study of the parity-conserving phase transition Phys.
Rev. E 71 (2005) 066128
A.
Szolnoki, G. Szabó, and M. Ravasz: Three-state
Potts model in combination with the rock-scissors-paper game Phys.
Rev. E 71 (2005) 027102
A.
Szolnoki and G. Szabó: Phase
transitions for rock-scissors-paper game on different networks Phys.
Rev. E 70 (2004) 037102
A.
Szolnoki and G. Szabó: Vertex
dynamics during domain growth in three-state models Phys.
Rev. E 70 (2004) 027101
M.
Ravasz, G. Szabó, and A. Szolnoki: Spreading
of families in cyclic predator-prey models Phys.
Rev. E 70 (2004) 012901
G.
Szabó, A. Szolnoki, and R. Izsák: Rock-scissors-paper
game on regular small-world networks J.
Phys. A: Math. Gen. 37 (2004) 2599
A.
Szolnoki: Dynamical
mean-field approximation for a diffusive pair contact process arXiv:cond-mat/0408114v2
A.
Szolnoki: Dynamical
mean-field approximation for pair contact process with a particle
source Phys.
Rev. E 66 (2002) 057102
A.
Szolnoki and G. Szabó: Influence
of extended dynamics on phase transitions in a driven lattice gas Phys.
Rev. E 65 (2002) 047101
G.
Szabó and A. Szolnoki: A
three-state cyclic voter model extended with Potts energy Phys.
Rev. E 65 (2002) 036115
A.
Szolnoki: Kinetic
Ising Model with Modified Kawasaki Dynamics: First-order Transition AIP
Conf. Proc. 574 (2001) 144
A.
Szolnoki: Phase
transitions in the kinetic Ising model with competing dynamics Phys.
Rev. E 62 (2000) 7466
A.
Szolnoki: Novel
stationary state in a non-equlibrium model with competing dynamics Comp.
Phys. Com. 121 (1999) 742
A.
Szolnoki: Stationary
state in a two-temperature model with competing dynamics Phys.
Rev. E 60 (1999) 2425
A.
Szolnoki: Non-equilibrium
phase transition in a two-temperature lattice gas J.
Phys. A: Math. Gen. 30 (1997) 7791
A.
Szolnoki, G. Szabó, O. G. Mouritsen: Anisotropic
ordering in a two-temperature lattice gas Phys.
Rev. E 55 (1997) 2255
G.
Szabó, A. Szolnoki, T. Antal, and I. Borsos: Self-organizing
domain structure in a driven lattice gas Phys.
Rev. E 55 (1997) 5275
G.
Ódor and A. Szolnoki: Directed
percolation conjecture for cellular automata is revisited Phys.
Rev. E 53 (1996) 2231
G.
Szabó and A. Szolnoki: Generalized
mean-field study of a driven lattice gas Phys.
Rev. E 53 (1996) 2196
G.
Szabó, A. Szolnoki, and T. Antal,: Anisotropic
polydomain structure in a driven lattice gas with repulsive
interaction Phys.
Rev. E 49 (1994) 299
G.
Szabó, A. Szolnoki, T. Antal, and I. Borsos: Interface
instability in driven lattice gases Fractals
1 (1993) 954
A.
Szolnoki and G. Szabó: Breaking
of forward-backward symmetry in driven systems Phys.
Rev. E 48 (1993) 611
G.
Szabó and A. Szolnoki: Coupled-chain
approximation for driven lattice-gas models Phys.
Rev. B 47 (1993) 8260
G.
Szabó, A. Szolnoki, Z. Juhász, G. Ódor: Enhanced
fluctuations in driven lattice gases Physica
A 191 (1992) 445
G.
Szabó, A. Szolnoki, and G. Ódor: Orientation
in a driven lattice gas Phys.
Rev. B 46 (1992) 11432
G.
Szabó, A. Szolnoki, and L. Bodócs: Correlations
induced by transport in a one-dimensional lattice gas Phys.
Rev. A 44 (1991) 6375
G.
Szabó and A. Szolnoki: Transport
driven reorientation in a square lattice gas model Phys.
Rev. A 41 (1990) 2235
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modified: May 14, 2012
