Hostname: page-component-78c5997874-4rdpn Total loading time: 0 Render date: 2024-11-05T04:12:40.181Z Has data issue: false hasContentIssue false

The Time-Like Nature of Mind: On Mind Functions as Temporal Patterns of the Neural Network

Published online by Cambridge University Press:  02 April 2024

Rights & Permissions [Opens in a new window]

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

It follows from the temporal nature of mind—the main concern of this essay—that mind functions are not localized in brain space.“ Time is extendedness, probably of the mind itself”, concludes Saint Augustine in Book XI of his Confessions (26.33), and, in our days, this extendedness can be made visible through an oscilloscopic “line” or trace of slow potentials. These graded, additive (not all-or-none) autorhythmic and seemingly self-generating potentials are primary events recorded at synapses. Autorhythmic brain structures (Zabara, 1973) appear to be the source of time frames, while a change in time frames (as reflected in the EEG) leads to synchronization and desynchronization of brain structures respectively. Synchronization forms a homogeneous time domain, such as obtained during rhythmic exercises, chanting, listening to music and mental processes that are the hallmark of religious practices (Rogers, 1973). Desynchronization of brain structures on the other hand marks a functional independence of neuronal elements with each element available for separate channels of data processing, for example, during hallucinogenic drug-induced central sympathetic arousal, that is, a waking dream state (Fischer, 1979).

Type
Research Article
Copyright
Copyright © 1989 Fédération Internationale des Sociétés de Philosophie / International Federation of Philosophical Societies (FISP)

References

Atlan, H. (1987), “Self-creation of meaning”. Physica Scripta 36, 563576.CrossRefGoogle Scholar
Bateson, G. (1979), Mind and Nature, a Necessary Unity. New York, Dutton.Google Scholar
Beer, S. (1966), Decision and Control. London, Wiley.Google Scholar
Bohm, D. (1969), “Further remarks on order”. In Towards a Theoretical Biology, 2, Waddington, C.H. (ed.) Edinburgh, Biological Sciences & Edinburgh University Press.Google Scholar
Waddington, C.H. (1980), Wholeness and the Implicate Order. London, Routledge & Kegan Paul.Google Scholar
Caley, M.T. & Sawada, D. (1986), “Recursive complementarity”. Cybernetica 29, 263275.Google Scholar
Clark, R.W. (1971), Einstein. New York, World Publ., p. 386.Google Scholar
Crowley, M.F. and Field, R.J. (1986), “Electrically coupled Belousov-Zhabotinski oscillations “. In Lecture Notes in Biomathematics 66, Othmer, H.G. (ed.), Heidelberg-New York, Springer.Google Scholar
Deshmukh, V.D. (1987). “Oscillatory neural ectoderm (one)“. Medical Hypotheses 23, 107108.CrossRefGoogle ScholarPubMed
Eccles, Sir JOHN (1987), “Brain and mind, two or one?" In Mindwaves, C. Blakemore & S. Greenfield (eds.) Oxford, Blackwell.Google Scholar
Epstein, I.R., Kusten, K., de Klepper, P. & Orban, M. (1983), “Oscillating chemical reactions”. Scientific American 248, 96108.CrossRefGoogle Scholar
ÉRDI, P. (1984), “Self-organizing mechanisms for the formation of ordered neural mappings”. Biol. Cybernetics 51, 93101.CrossRefGoogle ScholarPubMed
Ey, H. (1963), La Conscience. Paris, Presses Universitaires de France.Google Scholar
Fischer, R. (1966). In The Voices of Time. Fraser, J.T. (ed.), New York, Braziller; pp. 357382 & 657–666.Google Scholar
Fraser, J.T. (1967 a), In Interdisciplinary Perspectives of Time. Fischer, R. (ed.) Annals of the New York Academy of Sciences 138, 440488.CrossRefGoogle Scholar
Fischer, R. (1967 b), “A steady state concept of evolution, learning, perception, hallucinations and dreaming”. Intl. Journ. Neurology 6, 182201.Google ScholarPubMed
Fischer, R. (1968), “Psychophysics of excitation and tranquilization from a steady state perspective”. Neurosciences Research 1, 263314.Google ScholarPubMed
Fischer, R. (1969), “The perception-hallucination continuum”. Diseases of the Nervous System 30, 161171.Google ScholarPubMed
Fischer, R. (1970), “Über das rhythmisch-Ornamentale im halluzinatorisch-Schöpferischen “. Confinia Psychiatr. 13, 125.Google Scholar
Fischer, R. (1975), “Cartography of inner space”. In Hallucinations. Siegel, R.K. & West, J.L. (eds.) New York, Wiley.Google Scholar
West, J.L. (1979), In Expanding Dimensions of Consciousness. Sugerman, A.A. & Tarter, R.E. (eds.) New York, Springer.Google Scholar
West, J.L. (1984), “Comments on the structure of ancient wisdom”. Journ. Social & Biol. Structures 7, 387389.Google Scholar
West, J.L. (1986), In Handbook of States of Consciousness. Wolman, B. & Ullman, M. (Eds.). New York, Van Nostrand; pp. 395427.Google Scholar
Ullman, M. (1988), “La différence”. Science 240, 130.Google Scholar
Foester von, H. (1967). “Time and Memory”. In Interdisciplinary Perspectives of Time, Fischer, R. (ed.), Annals of the New York Academy of Sciences 138, Art. 2; pp. 866873.CrossRefGoogle Scholar
Franz von, M.L. (1952), “Der Traum des Descartes”, in Zeitlose Dokumente der Seele. Studien aus dem C.G. Jung Institut Zürich, III Zürich, Rascher Verlag.Google Scholar
Freeman, W.J. (1987), “Simulation of chaotic EEG patterns with a dynamical model of the olfactory system.” Biol. Cybern. 56, 139150.CrossRefGoogle ScholarPubMed
Freeman, W.J. & van Dijk, B.W. (1987), “Spatial pattern of visual cortical fast EEG during conditioned reflex in a rhesus monkey”. Brain Research 422, 267276.CrossRefGoogle Scholar
Garfinkel, A. (1983), “A mathematics for physiology”. Am. J. Physiol. 245, (Regul. Integr. Comp. Physiol. 14, R445 - R446).Google Scholar
Harnad, S. (1987), “Introduction”. In Categorical Perception. Harnad, S. (ed.), Cambridge, Cambridge University Press.Google Scholar
Harth, E. (1986) “Does the brain compute?’, Behavioral and Brain Science 9, 9899.CrossRefGoogle Scholar
Hawking, S. (1987), “The direction of time”. New Scientist, July 9, 4649.Google Scholar
Jahnsen, H. & Llinás, R. (1984), “Ionic basis for electroresponsiveness”. Journ. Physiol. (London) 349, 227–47.Google ScholarPubMed
Jammer, M. (1960), The Philosophy of Quantum Mechanics. New York, Wiley.Google Scholar
Kandel, E.R. & Schwartz, J.H. (eds.) (1985), Principles of Neural Science, 2nd ed., New York, Amsterdam, Oxford, Elsevier.Google Scholar
Klopf, H. (1977), Mental and Physical Phenomena; Toward a Unified Theory. Air Force Avionics Laboratory, Wright-Patterson AFB, Ohio 45433, Part I & II, pp. 205. Unpublished draft of a manuscript.Google Scholar
Llinás, R. (1987), “'Mindness' as a functional state of the brain.” In Mindwaves. Blakemore, C. & Greenfield, S. (eds.), Oxford, Blackwell.Google Scholar
Locker, A. (1981), “Metatheoretical presuppositions for autopoiesis “. In Autopoiesis. Zeleny, M. (ed.), New York, Elsevier-North Holland; pp. 211231.Google Scholar
Löfgren, L. (1983), “Autology of help; resolving problems of levels and boundaries”. In Problems of Levels and Boundaries. Pedretti, A. & de Zeeuw, G. (eds.), London-Zürich, Princelet Editions.Google Scholar
Madler, Ch. & Pöppel, E. (1987), “Auditory evoked potentials indicate loss of neuronal oscillations during general anaesthesia”. Naturwissenschaften 74, 4243.CrossRefGoogle ScholarPubMed
Madore, B.F. & Freeman, W.L. (1987), “Self-organizing structures”. Amer. Scientist 75, 252–9.Google Scholar
Margenau, H. (1984), The Miracle of Existence. Woodbridge, Conn., Ox Bow Press.Google Scholar
Nicolis, G. and Baras, F. (1984), Chemical Instabilities. Dordrecht, Reidel.Google Scholar
Numez, P. (1974), “The brain wave equation: a model for the EEG “. Abstract, Electroencephalography & Clinical Neurophysiology 37, 426.Google Scholar
Parrinder, P. (1981), James Joyce. Cambridge, University Press.Google Scholar
Pringle, J.W.S. (1976), “The mechanism of knowledge: limits of prediction “. Paper presented at the 5th Intl. Conference on the Unity of Sciences, Washington, D.C., Hilton, November 26.Google Scholar
Rogers, L. (1973), “EEG correlates of chanting”. Presented at the Transformations of Consciousness Conference (sponsored by R. M. Bucke Memorial Society & McGill University) Montreal, October.Google Scholar
Rössler, O.E. (1983), “The chaotic hierarchy”. Z. Naturforsch. 38 a, 788801.CrossRefGoogle Scholar
Sejnowski, T.J. & Hinton, G.E. (1985), “Parallel stochastic search in early vision”. In Vision, Brain and Cooperative Computation. Arbib, M.A., & Hanson, A.R. (eds.), Cambridge, Mass., M.I.T. Press. /Bradford Book.Google Scholar
Shaffer, J.H., Hill, R.M. & Fischer, R. (1973), “Psychophysics of Psilocybin and 9-tetrahydrocannabinol”. Agents and Actions (Basel, Birkhäuser) 3, 48-51; and In Abstracts of 5th Intl. Congress on Pharmacology, San Francis-co, California, July 23-28, 1972, p. 209.Google Scholar
Skarda, Ch. A. & Freeman, W.J. (1987), “How brains make chaos in order to make sense of the worlds”. Behav. and Brain Sciences 10, 161173.CrossRefGoogle Scholar
Starobinski, J. (1987), Montaigne in Motion. A Goldhammer (transl.) Chicago, University of Chicago Press.Google Scholar
Stevens, J.C. & Savin, H.B. (1962). “On the form of learning curves”. Journ. Exptl. Analysis Behavior 5, 1528.CrossRefGoogle Scholar
Szentágothai, J. (1987), In Mindwaves. Blakemore, C. & Greenfield, S. (eds.) Oxford, Blackwell.Google Scholar
Uribe, R.B. (1981), In Autopoiesis. Zeleny, M. (ed.), New York-Oxford, Elsevier-North Holland.Google Scholar
Weizsäcker, C.F. von (1985), Aufbau der Physik. München, Hanser.Google Scholar
Wells, H.G. (1947), The Time Machine. New York, Random House; reprinted in New York, Bantam, 1968.Google Scholar
Winfree, A.T. (1987a), When Time Breaks Down. Princeton, N.J., Princeton University Press.Google Scholar
Winfree, A.T. (1987 b), The Timing of Biological Clocks. Scientific American Library, New York, Freeman.Google Scholar
Zabara, J. (1972), “Foundation for a cybernetic model of psychobiology “. Kybernetes 1, 165168.CrossRefGoogle Scholar
Zabara, J. (1973), “Autorhythmic structure of the brain”. Cybernetica 2, 7798.Google Scholar
Zhabotinski, A.M. (1967), Oscillations in Biological and Chemical Systems. Nauka, K. (Ed.), Moscow, U.S.S.R. Academy of Science.Google Scholar