Some remarks on an experiment suggesting quantum-like behavior of cognitive entities and formulation of an abstract quantum mechanical formalism to describe cognitive entity and its dynamics

@article{Conte2007SomeRO,
  title={Some remarks on an experiment suggesting quantum-like behavior of cognitive entities and formulation of an abstract quantum mechanical formalism to describe cognitive entity and its dynamics},
  author={Elio Conte and Orlando Todarello and Antonio Federici and Francesco Vitiello and Michele Lopane and Andrei Yu. Khrennikov and Joseph P. Zbilut},
  journal={Chaos Solitons \& Fractals},
  year={2007},
  volume={31},
  pages={1076-1088}
}

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References

SHOWING 1-10 OF 38 REFERENCES

The Liar-paradox in a Quantum Mechanical Perspective

In this paper we concentrate on the nature of the liar paradox asa cognitive entity; a consistently testable configuration of properties. We elaborate further on a quantum mechanical model (Aerts,

A Preliminar Evidence of Quantum Like Behavior in Measurements of Mental States

Experimental results presented in this paper supports the hypothesis on quantum-like statistical behaviour of cognitive systems (at least human beings). Our quantum-like approach gives the

On the Generation of Sequential Unitary Gates from Continuous Time Schrödinger Equations Driven by External Fields

TLDR
A framework is proposed to dynamically express parameters directly in terms of the control inputs entering into the continuous time forced Schrouml;dinger equation.

A mechanistic classical laboratory situation violating the Bell inequalities with 2-2

We present a macroscopical mechanistic classical laboratory situation, and a classical macroscopical entity, and coincidence measurements on this entity, that lead to a violation of the Bell

Linear representations of probabilistic transformations induced by context transitions

TLDR
It is shown that not only quantum preparation procedures can have trigonometric probabilistic behaviour and generalizations of C-linear space probabilism calculus are proposed to describe non-quantum (trigonometric and hyperbolic) Probabilistic transformations.

The golden mean as clock cycle of brain waves