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International Journal of Neuroscience Volume 20, 1983 - Issue 3-4
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Original Article

Hierarchial thermodynamic approach to the brain

P. Érdi 1st Department of Anatomy, Semmelweis University Medical School, Budapest P.O.B. 95, H-1450, Hungary; Central Research Institut for Physics, Budapest, Hungary
Pages 193-216 | Received 05 Jan 1983, Published online: 07 Jul 2009

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LarryR. Vandervert. (1992) The emergence of brain and mind amid chaos through maximum‐power evolution. World Futures 33:4, pages 253-273.
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Articles from other publishers (34)

Péter Érdi, Tamás Kiss & Balázs Ujfalussy. 2010. Hippocampal Microcircuits. Hippocampal Microcircuits 527 554 .
J. J. Wright & D. T. J. Liley. (2010) Multiscale modeling of brain dynamics depends upon approximations at each scale. Behavioral and Brain Sciences 19:2, pages 310-320.
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M. N. Zhadin. (2010) Rhythmicity in the EEG and global stabilization of the average level of excitation in the cerebral cortex. Behavioral and Brain Sciences 19:2, pages 309-310.
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Ichiro Tsuda. (2010) The form of chaos in the noisy brain can manifest function. Behavioral and Brain Sciences 19:2, pages 309-309.
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Walter S. Pritchard. (2010) The EEG data indicate stochastic nonlinearity . Behavioral and Brain Sciences 19:2, pages 308-308.
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Hubert Preissl, Werner Lutzenberger & Friedemann Pulvermüller. (2010) Is there chaos in the brain?. Behavioral and Brain Sciences 19:2, pages 307-308.
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Andrew Oliver. (2010) Dynamics of the brain — from the statistical properties of neural signals to the development of representations. Behavioral and Brain Sciences 19:2, pages 306-307.
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Paul L. Nunez. (2010) Multiscale neocortical dynamics, experimental EEG measures, and global facilitation of local cell assemblies. Behavioral and Brain Sciences 19:2, pages 305-306.
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Márk Molnár. (2010) Chaos in induced rhythms of the brain – the value of ERP studies. Behavioral and Brain Sciences 19:2, pages 305-305.
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Robert Miller. (2010) Empirical data base for simulation: Firing rates and axonal conduction velocity for cortical neurones. Behavioral and Brain Sciences 19:2, pages 304-305.
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Hans Liljenström. (2010) Neuromodulation can significantly change the dynamical state of cortical networks. Behavioral and Brain Sciences 19:2, pages 303-304.
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Zbigniew J. Kowalik, Andrzej Wrobel & Andrzej Rydz. (2010) Why does the human brain need to be a nonlinear system?. Behavioral and Brain Sciences 19:2, pages 302-303.
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Edgar Koerner. (2010) Comparative reduction of theories — or over-simplification?. Behavioral and Brain Sciences 19:2, pages 301-302.
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Lester Ingber. (2010) Nonlinear nonequilibrium nonquantum nonchaotic statistical mechanics of neocortical interactions. Behavioral and Brain Sciences 19:2, pages 300-301.
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Valerie Gray Hardcastle. (2010) Modeling for modeling's sake?. Behavioral and Brain Sciences 19:2, pages 299-299.
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Walter J. Freeman. (2010) Neural system stability. Behavioral and Brain Sciences 19:2, pages 298-299.
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Harry R. Erwin. (2010) Multiscale modeling of the brain should be validated in more detail against the biological data. Behavioral and Brain Sciences 19:2, pages 297-298.
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Péter Érdi. (2010) Levels, models, and brain activities: Neurodynamics is pluralistic. Behavioral and Brain Sciences 19:2, pages 296-297.
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Theodore H. Bullock. (2010) Is the distribution of coherence a test of the model?. Behavioral and Brain Sciences 19:2, pages 296-296.
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Daniel J. Amit. (2010) Is the time ripe for integration of scales?. Behavioral and Brain Sciences 19:2, pages 295-296.
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J. J. Wright & D. T. J. Liley. (2010) Dynamics of the brain at global and microscopic scales: Neural networks and the EEG. Behavioral and Brain Sciences 19:2, pages 285-295.
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Péter Érdi. (1996) The brain as a hermeneutic device. Biosystems 38:2-3, pages 179-189.
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P�ter �rdi. (1993) Neurodynamic system theory: Scope and limits. Theoretical Medicine 14:2, pages 137-152.
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J�nos Szent�gothai. (1993) Self-organization: The basic principle of neural functions. Theoretical Medicine 14:2, pages 101-116.
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P. Érdi, T. Grőbler & P. Marton. 1992. Nature, Cognition and System II. Nature, Cognition and System II 193 203 .
MICHAEL L. SCHWALBE & Michael L. Schwalbe. (1991) The Autogenesis of the Self. Journal for the Theory of Social Behaviour 21:3, pages 269-295.
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M.M. Van Hulls & G.A. Orban. (1989) Entropy driven Artificial Neuronal Networks and sensorial representation: A proposal. Journal of Parallel and Distributed Computing 6:2, pages 264-290.
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. 1989. Dynamics and Thermodynamics in Hierarchically Organized Systems. Dynamics and Thermodynamics in Hierarchically Organized Systems 203 210 .
Péter Érdi. (1988) Neurobiological approach to computing devices. Biosystems 21:2, pages 125-133.
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P. Erdi. 1988. Nature, Cognition and System I. Nature, Cognition and System I 77 94 .
K. R. Schneider, B. Wegner & J. T�th. (1987) Qualitative analysis of a model for synaptic slow waves. Journal of Mathematical Chemistry 1:2, pages 219-234.
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P. Érdi & G. Barna. 1987. Mathematical Topics in Population Biology, Morphogenesis and Neurosciences. Mathematical Topics in Population Biology, Morphogenesis and Neurosciences 301 312 .
P. Erdi & G. Barna. 1986. Cybernetics and Systems ’86. Cybernetics and Systems ’86 335 342 .
J. Szent�gothai. (1985) Theorien zur Organisation und Funktion des Gehirns. Naturwissenschaften 72:6, pages 303-309.
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