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Volume 23: Pages 14-27, 2010

Introduction to quantum-inspired intelligence

Michail Zak 1

1Reasoning, Modeling, and Simulation Group, Jet Propulsion Laboratory, California Institute of Technology, Pasadena, California 91109, USA

A self-supervised (“intelligent”) particle that can escape from Brownian motion autonomously is introduced. Such a capability is due to a coupling of the particle governing equation with its own Liouville equation via an appropriate feedback. As a result, the governing equation is self-stabilized, and random oscillations are suppressed, while the Liouville equation takes the form of the Fokker–Planck equation with negative diffusion. Non-Newtonian properties of such a dynamical system as well as a link to quantum topology are discussed. Generalization to multidimensional systems is presented. The concept of physical intelligence is defined and illustrated by examples.

Keywords: Self-Supervision, Quantum Topology, Entanglement, Stochastic Attractors, Transition to Randomness, Non-Lipschitz Instability

Received: September 21, 2009; Accepted: November 8, 2009; Published Online: February 3, 2010