Results for 'Ignazio Corsaro'

12 found
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  1. Emergence and Computation at the Edge of Classical and Quantum Systems.Ignazio Licata - 2008 - In World Scientific (ed.), Physics of Emergence and Organization.
    The problem of emergence in physical theories makes necessary to build a general theory of the relationships between the observed system and the observing system. It can be shown that there exists a correspondence between classical systems and computational dynamics according to the Shannon-Turing model. A classical system is an informational closed system with respect to the observer; this characterizes the emergent processes in classical physics as phenomenological emergence. In quantum systems, the analysis based on the computation theory fails. It (...)
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  2. Transaction and Non Locality in Quantum Field Theory.Ignazio Licata - forthcoming - Europ. Phys. J.
    The most part of the debates on Quantum Mechanics (QM) interpretation come out from the remains of a classical language based upon waves and particles. Such problems can find a decisive clarification in Quantum Field Theory (QFT), where the concept of “classical object” is replaced by an interaction networks. On the other hand, it is simpler to discuss about non-locality in QM than in QFT. We propose here the concept of transaction as a connection between theQM and QFT language as (...)
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  3. Vision of Oneness.Ignazio Licata & Ammar J. Sakaji (eds.) - 2011 - Aracne Editrice.
    A cura di Ignazio Licata, Ammar J. Sakaji Jeffrey A. Barrett, Enrico Celeghini, Leonardo Chiatti, Maurizio Consoli, Davide Fiscaletti, Ervin Goldfain, Annick Lesne, Maria Paola Lombardo, Mohammad Mehrafarin, Ronald Mirman, Ulrich Mohrhoff, Renato Nobili, Farrin Payandeh, Eliano Pessa, L.I Petrova, Erasmo Recami, Giovanni Salesi, Francesco Maria Scarpa, Mohammad Vahid Takook, Giuseppe Vitiello This volume comes out from an informal discussion between friends and colleagues on the answer:what topic do you think as fundamental in theoretical physics nowadays? Obviously wereceived different (...)
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  4. Seeing by Models: Vision as Adaptative Epistemology.Ignazio Licata - 2012 - In G. MInati (ed.), Methods, Models, Simulations and Approaches Towards a General Theory of Change. World Scientific.
    In this paper we suggest a clarification in relation to the notions of computational and intrinsic emergence, by showing how the latter is deeply connected to the new Logical Openness Theory, an original extension of Gödel theorems to the model theory. The epistemological scenario we are going to make use of is that of the theory of vision, a particularly instructive one. In order to reach our goal we introduce a dynamic theory of relationship between the observer and the observed (...)
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  5. GENERAL SYSTEM THEORY, LIKEQUANTUM SEMANTICS AND FUZZY SETS.Ignazio Licata - 2006 - In G. Minati (ed.), Systemics of Emergence. Research and Developement. Springer.
    It is outlined the possibility to extend the quantum formalism in relation to the requirements of the general systems theory. It can be done by using a quantum semantics arising from the deep logical structure of quantum theory. It is so possible taking into account the logical openness relationship between observer and system. We are going to show how considering the truth-values of quantum propositions within the context of the fuzzy sets is here more useful for systemics. In conclusion we (...)
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  6. Incertezza. Un Approccio Sistemico.Ignazio Licata - 2013 - In Lucia Urbani ULivi (ed.), Strutture di Mondo 2. Il pensiero sistemico come specchio di una realtà complessa. Il Mulino. pp. 35-71.
    L’incertezza è considerata una limitazione pratica della conoscenza scientifica, legata al costo dell'acquisizione dei valori di un'osservabile. Un'analisi sistemica sui procedimenti della scienza effettivamente praticata ci rivela piuttosto che le scelte modellistiche su osservabili, scopi e risoluzione genera al tempo stesso informazione significativa ed incertezza.Un modello realizza un equilibrio omeocognitivo metastabile tra osservatore e sistema, una prospettiva di conoscenza che mette in alta risoluzione alcuni aspetti e ne lascia altri in ombra. L’esperienza con i sistemi complessi mostra che la conoscenza (...)
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  7. Beyond Turing: Hypercomputation and Quantum Morphogenesis.Ignazio Licata - 2012 - Asia Pacific Mathematics Newsletter 2 (3):20-24.
    A Geometrical Approach to Quantum Information.
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  8. Geometry for a Brain. Optimal Control in a Network of Adaptive Memristors.Ignazio Licata & Germano Resconi - 2013 - Adv. Studies Theor. Phys., (no.10):479-513.
    In the brain the relations between free neurons and the conditioned ones establish the constraints for the informational neural processes. These constraints reflect the systemenvironment state, i.e. the dynamics of homeocognitive activities. The constraints allow us to define the cost function in the phase space of free neurons so as to trace the trajectories of the possible configurations at minimal cost while respecting the constraints imposed. Since the space of the free states is a manifold or a non orthogonal space, (...)
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  9. Complessità in fisica: che cos’è il cambiamento?Ignazio Licata - 2012 - Nuova Civiltà Delle Macchine 10 (4):59-76.
    IN FISICA LA COMPLESSITÀ FA IL SUO INGRESSO NELLA FISICA STATISTICA PER POI APPARIRE NELLO STUDIO DEI COMPORTAMENTI COLLETTIVI NELLA MATERIA CONDENSATA E DELLA SOFT MATTER, E DA ULTIMO NELLA NUOVA TEORIA DEL CAMBIAMENTO. RIDUZIONISMO ED EMERGENZA NON SONO APPROCCI OPPOSTI BENSÌ COMPLEMENTARI.
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  10. Methexis, Mimesis and Self Duality: Theoretical Physics as Formal Systems.Ignazio Licata - 2014 - Versus 118.
    The naive idea of a mimesis between theory and experiments, a concept still lasing in many epistemologies, is here substituted by a more sophisticated mathematical methexis where theoretical physics is a system of production of formal structures under strong mathematical constraints, such as global and local symmetries. Instead of an ultimate “everything theory”, the image of physical theories here proposed is a totality of interconnected structures establishing the very conditions of its “thinkability” and the relations with the experimental domain.
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  11. Effective Physical Processes and Active Information in Quantum Computing.Ignazio Licata - 2007 - Quantum Biosystems 1 (1):51-65.
    The recent debate on hypercomputation has raised new questions both on the computational abilities of quantum systems and the Church-Turing Thesis role in Physics.We propose here the idea of “effective physical process” as the essentially physical notion of computation. By using the Bohm and Hiley active information concept we analyze the differences between the standard form (quantum gates) and the non-standard one (adiabatic and morphogenetic) of Quantum Computing, and we point out how its Super-Turing potentialities derive from an incomputable information (...)
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  12. Logical openness in cognitive models.Prof Ignazio Licata - 2008 - Epistemologia:177-192.
    It is here proposed an analysis of symbolic and sub-symbolic models for studying cognitive processes, centered on emergence and logical openness notions. The Theory of logical openness connects the Physics of system/environment relationships to the system informational structure. In this theory, cognitive models can be ordered according to a hierarchy of complexity depending on their logical openness degree, and their descriptive limits are correlated to Gödel-Turing Theorems on formal systems. The symbolic models with low logical openness describe cognition by means (...)
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