Abstract
In this work, we ask epistemological questions involved in making the intentional behavior the object of physical and mathematical inquiry. We show that the subjective component of intentionality can never become object of scientific inquiry, as related to self-consciousness. On the other hand, the inquiry on objective physical and logical components of intentional acts is central to scientific inquiry. Such inquiry concerns logical and semantic questions, like reference and truth of logical symbols, as well as their relationship to the “complexity” of brain networking. Such metalogical inquiry suggests indeed some hypotheses about the amazing “parallelism”, “plasticity” and “storing capacity” that mammalian and ever human brains might exhibit.
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References
J.A. Fodor, «Fodor’s guide to mental representation: the intelligent auntie’s vademecum», Mind 94:76–100 (1985);
J.A. Fodor, Psychosemantics. The problem of meaning in the philosophy of mind, Cambridge, MA, MIT Press (1987).
A. Tarski, «The semantic conception of truth and the foundations of semantics», in: Readings in philosophical analysis, H. Feigl, ed., New York, Cambridge University Press, pp. 52–84 (1944, 1949).
J.A. Fodor, «Methodological solipsism considered as a research strategy in cognitive psychology», The Behavioral and Brain Sciences 3:63–109 (1980).
J.R. Searle, «Mind, brains and programs. A debate on artificial intelligence», The Behavioral and Brain Science 3:128–135 (1980).
ID., Intentionality. An essay in the philosophy of mind, New York, Cambridge University Press (1983);
ID., Mind language and society, New York, Basic Books (1999).
R. McIntyre, «Intending and referring», in: Husserl, intentionality and cognitive science, H.L. Dreyfus and H. Hall, eds, Cambridge MA., MIT Press, pp. 219–235 (1982).
E. Zalta, Intensional logic and the metaphysics of intentionality, Cambridge, MA, MIT Press (1988).
W.V.O. Quine, Quiddities. An intermittently philosophical dictionary, Cambridge, MA, Harvard University Press (1987).
W.V.O. Quine, Word and object, Cambridge, MA, MIT Press (1960).
P.S. Churchland, Neurophilosophy. Toward a unified science of the mind-brain, Cambridge MA, MIT Press (1986);
P. Churchland, The engine of reason, the seat of the soul, Cambridge MA, MIT Press (1996).
H. Putnam, Representations and reality, Cambridge, MA, MIT Press (1988).
H. Putnam, «The mening of ‘meaning’». In: Philosophical papers: mind, language and reality, New York, Cambridge University Press (1972), pp. 215–271.
S. Kripke, Naming and necessity, Cambridge MA, Harvard University Press (1972, 1996).
A. Clark, Being there. Putting brain, body and world together again, Cambridge MA, MIT Press (1998).
I. Lakatos, Mathematics, science and epistemology, Cambridge, Cambridge University Press (1978).
D. R. Hofstadter, Fluid concepts and creative analogies, New York, Harper Collins Publ. (1995).
C. Cellucci, Le ragioni della logica, Roma—Bari, Laterza (1998).
G. Basti, «Per una lettura tomista dei fondamenti della logica e della matematica», in: Basti G. and Perrone A.L., Le radici forti del pensiero debole: dalla metafisica, alia matematica, al calcolo, Padova-Roma, Il Poligrafo e Pontificia University Lateranense, pp. 19–254 (1996).
G. Basti «L’approccio aristotelico-tomista alle aporie dell’induzione». In: Il fare della scienza. I fondamenti e le palafitte, F. Barone, G. Basti, C. Testi eds., Padova, Il Poligrafo, pp. 41–95 (1997).
S. Feferman, «Transfinite recursive progressions of axiomatic theories», The Journal of symbolic logic 27, pp. 259–316 (1962).
T. G. McCarthy, «Self—reference and incompleteness in a non-monotonic settings», The Journal of philosophical logic 23, pp. 423–449 (1994).
J.-Y. Girard, «Le champ du signe ou la faillite du réductionisme», in: E. Nagel and J. R. Newmann, Le théorème de Gödel, Paris, Editions du Seuil, p. 161 (1989).
K. R. Popper, Logic of scientific discovery, London, Routledge and Keegan P. (1959).
P.J. Cohen, Set theory and the continuum hypothesis, New York (1966).
G. Gentzen, «Die Wiederspruchsfreiheit der reinen Zahlenthorie», in Mathematische Annalen, 112, pp. 439–565 (1936).
C.M. Gray, P. Koenig, A.K. Engel and W. Singer «Oscillatory responses in cat visual cortex exhibit inter-columnar synchronization which reflects global stimulus properties», Nature 338, pp. 334–337 (1989).
R. Eckhorn, H.J. Reitboeck, M. Arndt and P. Dicke «Feature linking via synchronization among distributed assemblies: simulation of results from cat visual cortex», Neural Computation 2:293–307 (1990).
A.K. Engel, P. Koenig, C.M. Gray and W. Singer «Synchronization of oscillatory responses: a mechanism for stimulus-dependent assembly formation in act visual cortex», in: Parallel processing in neural systems and computers, R. Eckmiller, ed., Amsterdam, Elsevier, pp. 212–217 (1990).
C.A. Skarda, and W.J. Freeman «How brains mako chaos in order to make sense of the world», Behavioral and Brain Sciences 10:161–195 (1987).
G. Parisi, «Asymmetric Neural Nets and the Process of Learnings», Journ.of Phys. A: Math.Gen, 19, L675–680 (1986).
A.L. Perrone, «A formal scheme to avoid undecidabilities: an application to chaotic dynamics characterization and parallel computation» in: Cognitive and dynamical systems. Lecture Notes in Computer Science, S.I. Andersson, ed., 888:9–52 (1995);
ID., «Verso una teoria dinamica della computazione», in: G. Basti and A.L. Perrone, Le radici forti del pensiero debole: dalla metafisica, alia matematica, al calcolo, Padova-Roma, Il Poligrafo e Pontificia Università Lateranense, pp. 255–332 (1996);
ID., «Applications of chaos theory to lossy image compression», Nuclear Instruments and Methods in Physics Research. Section A., 389, pp. 221–225 (1997);
ID., «The cognitive role of chaos in neural information processings. In: Proceedings of the International School of Biocybernetics: «Processes in the perception representation mechanisms», C. Taddei-Ferretti and C. Muzio eds., Singapore-London, World Scientific (1999).
A.L. Perrone, «A new approach to chaotic systems characterization and its implications for biology», Aquinas XLIII-2:381–409 (2000).
M.I. Posner, and M.E. Raichle Images of mind, New York, Scientific American Library (1994).
M. Minsky, and S. Papert Perceptrons. 2 Edition, Cambridge Mass., MIT Press (1988).
A.L. Perrone, Basti G., Messi R., Pasqualucci E., Paoluzi L. «Offline Analysis of HEP events by the ‘dynamic perception’ neural network», Nuclear Instruments and Methods in Physics Research. Section A., 389, 210–213 (1997).
M. Tsukada, (1998). Private communication for his experimental findings in late 1970s on dynamic receptive field in cat retinal ganglion cells.
J. J. Eggermont, A. M. Aertsen, H. J. Hermes, and P.I.M. Johannesma, «Spectro-Temporal Characterization of Auditory Neurons: Redundant or Necessary?», Hearing Research 5, pp. 109–121 (1981).
M. P. Kilgard and M. M. Merzenich, «Cortical map reorganization enabled by nucleus basalis activity», Science 279, pp. 1714–1718 (1998).
H. Dinse, «A Temporal Structure of Cortical Information Processings», Concepts in Neuroscience 1, pp. 199–238 (1990).
H. Dinse, «A time-based approach towards cortical functions: neural mechanisms underlying dynamic aspects of information processing before and after postontogenetic plastic processes», Physica D 75, pp. 129–150 (1994).
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Basti, G., Perrone, A.L. (2002). Neural nets and the puzzle of intentionality. In: Tagliaferri, R., Marinaro, M. (eds) Neural Nets WIRN Vietri-01. Perspectives in Neural Computing. Springer, London. https://doi.org/10.1007/978-1-4471-0219-9_34
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DOI: https://doi.org/10.1007/978-1-4471-0219-9_34
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