Nonlinear Quantum Neuro-Psycho-Dynamics with Topological Phase Transitions

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Ivancevic, Vladimir G.
Ivancevic, Tijana T.
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We have proposed a novel model of general quantum, stochastic and chaotic psychodynamics. The model is based on the previously developed Life-Space Foam (LSF) framework to motivational and cognitive dynamics. The present model extends the LSF-approach by incorporating chaotic and topological non-equilibrium phase transitions. Such extended LSF-model is applied for rigorous description of multi-agent joint action. The present model is related to Haken-Kelso-Bunz model of self-organization in the human motor system (including: multi-stability, phase transitions and hysteresis effects, presenting a contrary view to the purely feedback driven neural systems), as well as the entropy-approach to adaptation in human goal-directed motor control. Keywords: Quantum probability, Life-Space Foam, noisy decision making, chaos, topological phase transitions, multi-agent joint action, goal-directed motor control
Comment: 29 pages, 4 figures, Latex
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Nonlinear Sciences - Adaptation and Self-Organizing Systems
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