Добавить в цитаты Настройки чтения

Страница 172 из 174



[238] Libet, B. (1990). Cerebral processes that distinguish conscious experience from unconscious mental functions. В сб. The principles of design and operation of the brain (ed. J. C. Eccles, O. D. Creutzfeldt), Experimental Brain research series 21, 185-205. Springer-Verlag, Berlin.

[239] Libet, B. (1992). The neural time-factor in perception, volition and freewill. Revue de Metaphysique et de Morale, 2, 255-272.

[240] Libet, В., Wright, E. W. Jr., Feinstein, В., Pearl, D. K. (1979). Subjective referral of the timing for a conscious sensory experience. Brain, 102, 193-224.

[241] Linden, E. (1993). Can animals think? Time Magazine (March), 13.

[242] Lisboa, P.G.J, (ed.) (1992). Neural networks: current applications. Chapman Hall, London.

[243] Lockwood, M. (1989). Mind, brain and the quantum. Blackwell, Oxford.

[244] Longair, M.S. (1993). Modern cosmology — a critical assessment. Q. J. R. Astr. Soc, 34, 157-199.

[245] Longuet-Higgins, H. С (1987). Mental processes: studies in cognitive science, Part II. MIT Press, Cambridge, Massachusetts.

[246] Lucas, J.R. (1961). Minds, machines and Godel. Philosophy, 36, 120-124; также в Alan Ross Anderson (ed.) (1964) Minds and Machines. Englewood Cliffs.

[247] Lucas, J.R. (1970). The freedom of the will. Oxford University Press.

[248] McCarthy, J. (1979). Ascribing mental qualities to machines. В сб. Philosophical perspectives in artificial intelligence (ed. M. Ringle). Humanities Press, New York.

[249] McCulloch, W.S., Pitts, W.H. (1943). A logical calculus of the idea immanent in nervous activity. Bull. Math. Biophys., 5, 115-133. (Также в McCulloch, W. S., Embodiments of mind, MIT Press, 1965.)

[250] McDermott, D. (1990). Computation and consciousness. Behavioural and Brain Sciences, 13 (4), 676.

[251] MacLe

[252] Majorana, E. (1932). Atomi orientati in campo magnetico variabile. Nuovo Cimento, 9, 43-50.

[253] Manaster-Ramer, A., Savitch, W.J., Zadrozny, W. (1990). Godel redux. Behavioural and Brain Sciences, 13 (4), 675.

[254] Mandelkow, E.-M., Mandelkow, F. (1994). Microtubule structure. Curr. Opinions Structural Biology, 4, 171-179.

[255] Margulis, L. (1975). Origins of eukaryotic cells. Yale University Press, New Haven, CT.

[256] Markov, A. A. (1958). The insolubility of the problem of homeomorphy. Dokl. Akad. Nauk. SSSR, 121, 218-220.

[257] Marr, D.E. (1982). Vision: a computational investigation into the human representation and processing of visual information. Freeman, San Francisco.

[258] Marshall, I.N. (1989). Consciousness and Bose-Einstein condensates. New Ideas in Psychology, 7.

[259] Mermin, D. (1985). Is the moon there when nobody looks? Reality and the quantum theory. Physics Today, 38, 38-47.

[260] Mermin, D. (1990). Simple unified form of the major no-hidden-variables theorems. Phys. Rev. Lett, 65, 3373-3376.

[261] Michie, D., Johnston, JR. (1984). The creative computer. Machine intelligence and human knowledge. Viking Penguin.

[262] Minsky, M. (1968). Matter, mind and models. В сб. Semantic information processing (ed. M. Minsky). MIT Press, Cambridge, Massachusetts.

[263] Minsky, M. (1986). The society of mind. Simon and Schuster, New York.

[264] Minsky, M., Papert, S. (1972). Perceptrons: an introduction to computational geometry. MIT Press, Cambridge, Massachusetts.

[265] Misner, C.W., Thorne, K. S., Wheeler, J. A. (1973). Gravitation. Freeman, New York.

[266] Moore, A. W. (1990). The infinite. Routledge, London.

[267] Moravec, H. (1988). Mind children: the future of robot and human intelligence. Harvard University Press, Cambridge, Massachusetts.



[268] Moravec, H. (1994). The Age of Mind: transcending the human condition through robots. Готовится к печати.

[269] Mortensen, C. (1990). The powers of machines and minds. Behavioural and Brain Sciences', 13(4), 678.

[270] Mostowski, A. (1957). Sentences undecidable in formalized arithmetic: an exposition of the theory of Kurt Godel. North-Holland, Amsterdam.

[271] Nagel, E., Newman, J. R. (1958). Godel's proof. Routledge and Kegan Paul.

[272] Newell, A., Simon, H.A. (1976). Computer science as empirical enquiry: symbols and search. Communications of the ACM, 19, 113-126.

[273] Newell, A., Young, R., Polk, T. (1993). The approach through symbols. В сб. The simulation of human intelligence (ed. D. Broadbent). Blackwell, Oxford.

[274] Newton, I. (1687). Philosophiae Naturalis Principia Mathematica. Репринт: Cambridge University Press.

[275] Newton, Г. (1730). Opticks. 1952, Dover, New York.

[276] Oakley, D.A. (ed.) (1985). Brain and mind. Methuen, London.

[277] Obermayer, K., Teich, W.G., Mahler, G. (1988). Structural basis of multistationary quantum systems. I. Effective single-particle dynamics. Phys. Rev., B37, 8096-8110.

[278] Obermayer, K., Teich, W.G., Mahler, G. (1988). Structural basis of multistationary quantum systems. II. Effective few-particle dynamics. Phys. Rev., B37, 8111-8121.

[279] Omnes, R. (1992). Consistent interpretations of quantum mechanics. Rev. Mod. Phys., 64, 339-382.

[280] Pais, A. (1991). Niels Bohr's times. Clarendon Press, Oxford.

[281] Pauling L. (1964). The hydrate microcrystal theory of general anesthesia. Anesth. Analg., 43, 1.

[282] Paz, J. P., Zurek, W.H. (1993). Environment-induced decoherence, classicality and consistency of quantum histories. Phys. Rev., D48 (6), 2728-2738.

[283] Paz, J.P., Habib, S., Zurek, W.H. (1993). Reduction of the wave packet: preferred observable and decoherence time scale. Phys. Rev., D47 (2), 3rd Series, 488-501.

[284] Pearie, P. (1976). Reduction of the state-vector by a nonlinear Schrodinger equation. Phys. Rev., D13, 857-868.

[285] Pearte, P. (1989). Combining stochastic dynamical state-vector reduction with spontaneous localization. Phys. Rev., A39, 2277-2289.

[286] Pearie, P. (1992). Relativistic model state-vector reduction. В сб. Quantum chaos — Quantum measurement, NATO Adv. Sci. Inst. Ser. С Math. Phys. Sci. 358 (Copenhagen 1991). Kluwer, Dordrecht.

[287] Peat, F.D. (1988). Superstrings and the search for the theory of everything. Contemporary Books, Chicago.

[288] Penrose, О. (1970). Foundations of statistical mechanics: a deductive treatment. Pergamon, Oxford.

[289] Penrose, O., Onsager, L. (1956). Bose-Einstein  condensation and liquid helium. Phys. Rev., 104, 576-584.

[290] Penrose, R. (1980). On Schwarzschild causality — a problem for "Lorentz covariant" general relativity. В сб. Essays in general relativity (A. Taub Festschrift) (ed. F. J.Tipler), 1-12. Academic Press, New York.

[291] Penrose, R. (1987). Newton, quantum theory and reality. В сб. 300 Years of gravity (ed. S. W. Hawking, W. Israel). Cambridge University Press.

[292] Penrose, R. (1990). Author's response, Behavioural and Brain Sciences, 13 (4), 692.

[293] Penrose, R. (1991). The mass of the classical vacuum. В сб. The philosophy of vacuum (ed. S. Saunders, H. R. Brown). Clarendon Press, Oxford.

[294] Penrose, R. (1991). Response to Tony Dodd's "Godel, Penrose, and the possibility of AI". Artificial Intelligence Review, 5, 235.

[295] Penrose, R. (1993). Gravity and quantum mechanics. В сб. General relativity and gravitation 1992. Proceedings of the Thirteenth International Conference on General Relativity and Gravitation held at Cordoba, Argentina 28 June-4 July 1992. Part I: Plenary lectures (ed. R. J. Gleiser, C. N. Kozameh, O. M.Moreschi). Institute of Physics Publications, Bristol.

[296] Penrose, R. (1993). Quantum non-locality and complex reality. В сб. The Renaissance of general relativity (in honour of D.W.Sciama) (ed. G.Ellis, A.Lanza, J.Miller). Cambridge University Press.