See also
Tomer Fekete
Ben-Gurion University of the Negev
  1. System, Subsystem, Hive: boundary problems in computational theories of consciousness.Tomer Fekete, Cees van Leeuwen & Shimon Edelman - 2016 - Frontiers in Psychology 7.
    A computational theory of consciousness should include a quantitative measure of consciousness, or MoC, that (i) would reveal to what extent a given system is conscious, (ii) would make it possible to compare not only different systems, but also the same system at different times, and (iii) would be graded, because so is consciousness. However, unless its design is properly constrained, such an MoC gives rise to what we call the boundary problem: an MoC that labels a system as conscious (...)
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  2. In the interest of saving time: a critique of discrete perception.Tomer Fekete, Sander Van de Cruys, Vebjørn Ekroll & Cees van Leeuwen - 2018 - Neuroscience of Consciousness 2018 (1):1-8.
    A recently proposed model of sensory processing suggests that perceptual experience is updated in discrete steps. We show that the data advanced to support discrete perception are in fact compatible with a continuous account of perception. Physiological and psychophysical constraints, moreover, as well as our awake-primate imaging data, imply that human neuronal networks cannot support discrete updates of perceptual content at the maximal update rates consistent with phenomenology. A more comprehensive approach to understanding the physiology of perception (and experience at (...)
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    Dynamical Emergence Theory (DET): A Computational Account of Phenomenal Consciousness.Roy Moyal, Tomer Fekete & Shimon Edelman - 2020 - Minds and Machines 30 (1):1-21.
    Scientific theories of consciousness identify its contents with the spatiotemporal structure of neural population activity. We follow up on this approach by stating and motivating Dynamical Emergence Theory, which defines the amount and structure of experience in terms of the intrinsic topology and geometry of a physical system’s collective dynamics. Specifically, we posit that distinct perceptual states correspond to coarse-grained macrostates reflecting an optimal partitioning of the system’s state space—a notion that aligns with several ideas and results from computational neuroscience (...)
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    EEG-Based Prediction of Cognitive Load in Intelligence Tests.Nir Friedman, Tomer Fekete, Kobi Gal & Oren Shriki - 2019 - Frontiers in Human Neuroscience 13.
  5. Representational systems.Tomer Fekete - 2010 - Minds and Machines 20 (1):69-101.
    The concept of representation has been a key element in the scientific study of mental processes, ever since such studies commenced. However, usage of the term has been all but too liberal—if one were to adhere to common use it remains unclear if there are examples of physical systems which cannot be construed in terms of representation. The problem is considered afresh, taking as the starting point the notion of activity spaces—spaces of spatiotemporal events produced by dynamical systems. It is (...)
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    Being in Time: Dynamical Models of Phenomenal Experience.Shimon Edelman, Tomer Fekete & Neta Zach (eds.) - 2012 - Philadelphia: John Benjamins.
    The chapters comprising this book represent a collective attempt on the part of their authors to redress this aberration.
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    Being in time.Shimon Edelman & Tomer Fekete - 2012 - In Shimon Edelman, Tomer Fekete & Neta Zach (eds.), Being in Time: Dynamical Models of Phenomenal Experience. John Benjamins. pp. 88--81.