Retinamorphic color Schrödinger metamedia

Abstract

In this work, we use quantum color cellular automata to study pattern formation and image processing in quantum-diffusion Schrödinger systems with triplet-valued (color-valued) diffusion coefficients. Triplet numbers have the real part and two imaginary parts (with two imaginary units ϵ 1 and ϵ 2, where ϵ 3 =1 ). They form 3-D triplet algebra. Discretization of the Schrödinger equation gives quantum color cellular automata with various triplet-valued physical parameters. The process of excitation in these media is described by the color Schrödinger equations with the wave functions that have values in triplet algebras. The color Schrödinger metamedia can be used for creation of the eye-prosthesis. The color metamedium suggested can serve as the prosthesis prototype for perception of the color images.