“Quantitative measure of structural and geometric similarity of 3D morphologies”, Complexity, vol. 16, pp. 40–52, 2011.
, The World of Framsticks: Simulation, Evolution, Interaction. Berlin: Springer-Verlag, 2000, pp. 214–224.
, “Genetic mappings in artificial genomes”, Theory in Biosciences, vol. 123, pp. 125–137, 2004.
, From Directed to Open-Ended Evolution in a Complex Simulation Model. MIT Press, 2000, pp. 293–299.
, “Models and implementations of timing processes using Artificial Life techniques”, Poznan University of Technology, Institute of Computing Science, RA-05/09, 2009.
, “Framsticks: Creating and Understanding Complexity of Life”, in Artificial Life Models in Software, Second., New York: Springer, 2009, pp. 107–148.
, “Application of a morphological similarity measure to the analysis of shell morphogenesis in Foraminifera”, in Man–Machine Interactions 4, vol. 391, Springer, 2016, pp. 215–224.
, “Identifying efficient abductive hypotheses using multi-criteria dominance relation”, ACM Transactions on Computational Logic, vol. 15, pp. 28:1–28:20, 2014.
, “Universes and simulations: civilizational development in nested embedding”, Foundations of Computing and Decision Sciences, vol. 43, pp. 181–205, 2018.
, “Parametrizing Convection Selection: Conclusions from the Analysis of Performance in the NKq Model”, in Genetic and Evolutionary Computation Conference (GECCO '19), July 13–17, 2019, Prague, Czech Republic, ACM, 2019, pp. 804–811.
, “Revealing the Inner Dynamics of Evolutionary Algorithms with Convection Selection”, in Genetic and Evolutionary Computation Conference Companion (GECCO '23), Lisbon, Portugal, 2023.
, , “Comparison of different genotype encodings for simulated 3D agents”, Artificial Life Journal, vol. 7, pp. 395–418, 2001.
, “Applications of a similarity measure in the analysis of populations of 3D agents”, Journal of Computational Science, vol. 21, pp. 407–418, 2017.
, “Estimating similarity of neural network dynamics”, Poznan University of Technology, Institute of Computing Science, RA-10/10, 2010.
, “Framsticks: a platform for modeling, simulating and evolving 3D creatures”, in Artificial Life Models in Software, First., New York: Springer, 2005, pp. 37–66.
, “Type A and Type B Effects, Time-Order Error and Weber's Law in Human Timing – Simulations and Synthesis”, Poznan University of Technology, Institute of Computing Science, 2021.
, Artificial Life Models in Software, Second. Springer, 2009.
, “Framsticks: sztuczne życie – złożona symulacja stworzeń i ich ewolucji”, in Materiały konferencyjne III Krajowej Konferencji Algorytmy Ewolucyjne i Optymalizacja Globalna KAEiOG (Proceedings of the National Conference on Evolutionary Computation and Global Optimization), Potok Złoty, 1999, pp. 157–166.
, “Time-order error and scalar variance in a computational model of human timing: simulations and predictions”, Computational Cognitive Science, vol. 1, pp. 1–24, 2015.
, “Nesting”. 2016.
, “Measuring properties of movement in populations of evolved 3D agents”, in Artificial Life Conference Proceedings, MIT Press, 2019, pp. 485–492.
, “Framsticks – Artificial Life”, in ECML 98 Demonstration and Poster Papers, Chemnitz, 1998, pp. 7–9.
, “Evolving free-form stick ski jumpers and their neural control systems”, in Proceedings of the National Conference on Evolutionary Computation and Global Optimization, Poland, 2009, p. 103--110.
, “Multi-agent simulation of benthic foraminifera response to annual variability of feeding fluxes”, Journal of Computational Science, vol. 21, pp. 419–431, 2017.
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