21. Levin M. (2019). The Computational Boundary of a «Self»: Developmental Bioelectricity Drives Multicellularity and Scale-Free Cognition. Front Psychol 13; 10: 2688.

22. Vergassola M., Villermaux E., Shraiman, B. (2007) ‘Infotaxis’ as a strategy for searching without gradients. Nature 445, 406–409.

23. Waddington C. H. (1957). The Strategy of the Genes. London, George Allen & Unwin.

24. Krakauer D., Bertschinger N., Olbrich E., Flack J. C., Ay N. (2020). The information theory of individuality. Theory Biosci; 139 (2): 209–223.

25. Margulis L. (1991) Symbiosis as a source of evolutionary innovation: speciation and morphogenesis. In: Margulis L, Fester R, editors. Symbiogenesis and Symbionticism. Cambridge: MIT Press; p. 1–14.

26. Zilber-Rosenberg I., Rosenberg E. (2008). Role of microorganisms in the evolution of animals and plants: the hologenome theory of evolution. FEMS Microbiol Rev.; 32: 723–35.

27. Rosenberg E., Zilber-Rosenberg I. (2018) The hologenome concept of evolution after 10 years. Microbiome, 6: 78.

28. Matheny M. H., Emenheiser J., Fon W., Chapman A., Salova A., Rohden M., Li J., Hudoba de Badyn M., Pósfai M., Duenas-Osorio L., Mesbahi M., Crutchfield J. P., Cross M. C., D’Souza R. M., Roukes M. L. (2019). Exotic states in a simple network of nanoelectromechanical oscillators. Science. 363 (6431): eaav7932.

29. England J. (2020). Every Life Is on Fire: How Thermodynamics Explains the Origins of Living Things. NY, Basic Books.

30. Bak P., Tand C., Wiesenfeld K. (1987). Self-Organized Criticality. An Explanation of 1/f Noise. Physical Review Letters 59, 381.

31. Bak P., Tand C., Wiesenfeld K. (1988). Self-Organized Criticality. Physical Review A 38, 364.

32. Bak P., Chen K. (1991). Self-Organized Criticality. Scientific American 264, 46.

33. Bak P., Creutz M. (1993). Fractals and Self-Organized Criticality. In: Fractals and Disordered Systems 2: Bunde A. and Havlin S., eds. Berlin, Heidelberg: Springer.

34. Dhar D., Ramaswamy R. (1989). Exactly solved model of self-organized critical phenomena. Phys. Rev. Lett. Vol.63, N16, p. 1659–1662.

35. Rothman D. H., Grotzinger J. P., Fleming P. (1994). Scaling in turbidite deposition. J of Sedimentary Research A 64, 59.

36. Rinaldo A., Maritan A., Colaiori F., Flammini A., Rigon R., Ignacio I., Ignacio I., Rodriguez-Iturbe I., Banavan J. R. (1996). Thermodynamics of fractal river networks. Physical Review Letters 76, 3364.

37. Sornette A., Sornette D. (1989). Self-organized criticality and earthquakes. Physical Review Letters 9, 197.

38. Ito K., Matsuzaki M. (1990). Earthquakes as self-organized critical phenomena. J of Geophysical Research B 95, 6853.

39. Carlson J. M., Langer J. S. (1989). Physics of earthquakes generated by fault dynamics. Physical Review Letters 62, 2632.

40. Adami C. (1995). Self-organized criticality in living systems. Physical Letters A 203, 29.

41. Ito K. (1995). Punctuated equilibrium model of biological evolution is also a self-organized critical model of earthquakes. Physical Review E 52, 3232.

42. Bak P., Sneppen K. (1993). Punctuated equilibrium and criticality in a simple model of evolution. Physical Review Letters 24, 4083.

43. Vanderwalle N., Ausloos M. (1995). Self-organized criticality in phylogenic tree growths. Journal de physique I France, 5, 1011.

44. Sneppen K., Trusina A., Jensen M. H., Bornholdt S. (2010). A Minimal Model for Multiple Epidemics and Immunity Spreading. PLoS ONE 5(10): e13326.

45. Contoyiannis Y., Stavrinides S. G., Hanias M. P., Kampitakis M., Papadopoulos P., Potirakis S. (2020). Self-Organized Criticality in an Epidemic Spread Model, preprint.

46. Stassinopoulos D., Bak P. (1995). Democratic Reinforcement. A Priciple for Brain Function. Physical Review E51, 5033.

47. Carlson J. M., Doyle J. (1999). Highly optimized tolerance: a mechanism for power laws in designed systems. Phys. Rev. E Stat. Phys. Plasmas Fluids Relat. Interdiscip. Topics 60, 1412–1415.

48. Allen B., Stacey B. C., Bar-Yam Y. (2014). An information-theoretic formalism for multiscale structure in complex systems, arXiv:1409.4708.

49. Bar-Yam T., Lynch O., Bar-Yam Y. (2018). The Inherent Instability of Disordered Systems. arXiv: Physics and Society.

Глава VI. Первая цифровая трансформация

Жак Лакан, французский психоаналитик, философ

Эргодичность и неэргодичность: разные исходы для русской рулетки