Abstract
In this work, we examine the basic problem of connecting a theory of the brain to the activities of humans engaged in the common pursuits of everyday life. This examination is explored through an implementation of a current dynamical theory, the KIII theory, which originates with Freeman [3, 4] and is advanced mathematically by Kozma. Our venue is a sports training program which is chosen for its accessibility to all researchers. In order to carry out this examination we must use a mathematical framework that serves the purpose of capturing the dynamics of the Freeman-Kozma model (Freeman, Neurodynamics: an exploration in mesoscopic brain dynamics, 2000, [4], Ilin and Kozma, Phys Lett A 360:66–83, 2006, [6]) and which can also be applied to the activities of a human enterprise.
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Acknowledgments
While many students passed through our program over the years, we would like to acknowledge those who can be clearly identified with our program. To do this we confine our acknowledgments to those who were in the program at least two years; or, based their development directly on using the KIII Theory protocols; and, who are present in our program as of December 30, 2014.
Students Hudson Lorfing, Jean Valiquette, Vishal Puppala, Anuj Samal, Mircea Tatulescu, Dan Tatulescu, Kristen Huggins, Faysal Alameddine, Aya Alameddine, Claudia Mollerup-Madsen, Ghida Zaatari, Vijay Patel.
Assistants Jana van der Walt, Mari van der Walt, Henry Garza, Jason Haynes, Shikha Uberoi
Financial Support Ricardo Nazario, W. C., Dr. Dileep Puppala, Denise Slaughter, Diane Zvera, Dr. G.S. Ramesh, Dr. Yamini Naygandhi, Dr. Reka Ramesh, Dr. Fadi Alameddine.
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Brown, R. (2016). Commentary by Ray Brown on Real World Applications. In: Cognitive Phase Transitions in the Cerebral Cortex - Enhancing the Neuron Doctrine by Modeling Neural Fields. Studies in Systems, Decision and Control, vol 39. Springer, Cham. https://doi.org/10.1007/978-3-319-24406-8_18
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DOI: https://doi.org/10.1007/978-3-319-24406-8_18
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