TITLE:
Toward Quantum-Inspired Model of Mind
AUTHORS:
Michail Zak
KEYWORDS:
Mind; Creativity; Terminal Singularities; Biological Clock
JOURNAL NAME:
Journal of Quantum Information Science,
Vol.4 No.1,
March
7,
2014
ABSTRACT:
This paper proposes a mathematical formalism for
describing the machinery of human mind creativity. Since some functions of mind support discreteness of cognition,
but others support its continuity, while time in
physics is always continuous, an attempt to overcome the continuous/discrete duality of mind performance is implemented via utilization of
special critical points: terminal attractors and
repellers that act as autonomous biological clock. In this paper, attention is
concentrated upon the
discrete mode of the mind activity since the continuous mode was introduced and
discussed in details in our previous publications. The fundamental novelty of
the model is in its capability to move from disorder to order without external
inputs in violation of the second law of thermodynamics; that suggests that
this kind of dynamics requires extension of modern physics to include physics
of life. Conceptually the discrete model links to its continuous version represented by a hypothetical particle of life that is briefly discussed
prior to derivation of the discrete model. However, the discrete model should be considered as the next step in study of
mind dynamics since it provides
a bridge to mathematical origin of self-generated novelties in such brunches as
mathematical logic and linguistic, i.e. the highest level activities of human mind. The proposed model deals with rules
of mind activity rather than with its content.