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or mathematical duality (showing the “relevance of negative results”), other times by stressing the role of randomness in the robustness or resilience of phenomena. The ways we acquire knowledge may be enlightened by this approach, also in view of the role of symmetries and invariance in mathematical modeling and of the strong connections between spontaneous symmetry breaking and random events discussed in Longo and Montévil (2015).
1.8. Acknowledgments
The authors have been supported in part by Marie Curie FP7-PEOPLE-2010-IRSES Grant and have benefitted from discussions and collaboration with A. Abbott, S. Galatolo, M. Hoyrup, T. Paul and K. Svozil. We also thank the referees for their excellent comments and suggestions. We also warmly thank Springer Editions for authorizing the translation of the original article (Classical, Quantum and Biological Randomness as Relative Unpredictability. Invited Paper, special issue of Natural Computing, Volume 15, Issue 2, pp. 263–278, Springer, March 2016) and Louis Ter Ovanessian who provided the translation.
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