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  1. James A. Dixon, John G. Holden, Daniel Mirman & Damian G. Stephen (2012). Multifractal Dynamics in the Emergence of Cognitive Structure. Topics in Cognitive Science 4 (1):51-62.
    The complex-systems approach to cognitive science seeks to move beyond the formalism of information exchange and to situate cognition within the broader formalism of energy flow. Changes in cognitive performance exhibit a fractal (i.e., power-law) relationship between size and time scale. These fractal fluctuations reflect the flow of energy at all scales governing cognition. Information transfer, as traditionally understood in the cognitive sciences, may be a subset of this multiscale energy flow. The cognitive system exhibits not just a single power-law (...)
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  2. Christopher T. Kello, Gordon D. A. Brown, Ramon Ferrer-I.-Cancho, John G. Holden, Klaus Linkenkaer-Hansen, Theo Rhodes & Guy C. Van Orden (2010). Scaling Laws in Cognitive Sciences. Trends in Cognitive Sciences 14 (5):223-232.
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  3. Christopher T. Kello, Gregory G. Anderson, John G. Holden & Guy C. Van Orden (2008). The Pervasiveness of 1/F Scaling in Speech Reflects the Metastable Basis of Cognition. Cognitive Science 32 (7):1217-1231.
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  4. Guy C. Van Orden, John G. Holden & Michael T. Turvey (2003). Self-Organization of Cognitive Performance. Journal of Experimental Psychology: General 132 (3):331.
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