Title :
Modelling iterative roots of mappings in multidimensional spaces
Author :
Kindermann, Lars ; Georgiev, Pando
Author_Institution :
Brain Sci. Inst., RIKEN, Saitama, Japan
Abstract :
Solutions φ(x) of the functional equation φ(φ(x)) = f (x) are called iterative roots of the given function f(x). They are of interest in dynamical systems, chaos and complexity theory and also in the modelling of certain industrial and financial processes. The problem of computing this "square root" in function (or operator) spaces remains a hard task and is, for the general case, still unsolved. While the theory of functional equations provides some insight for real and complex valued functions, iterative roots of mappings from Rn to Rn are not well understood by theory and there exists no published numerical algorithm for their computation. Here we prove existence of iterative roots of a certain class of monotonic mappings in Rn spaces and demonstrate how a method based on neural networks can find solutions to some examples that arise from simple physical systems.
Keywords :
convergence of numerical methods; functional equations; harmonic oscillators; interpolation; iterative methods; learning (artificial intelligence); mathematics computing; neural nets; rational functions; convergence; deterministic dynamical system; fractional iterations; function spaces; functional equation solutions; harmonic damped oscillator; iterative roots of mappings modelling; monotonic mappings; multidimensional spaces; multilayer network; neural networks; rational number; rational roots; square root; training algorithm; Biological neural networks; Chaos; Complexity theory; Equations; Iterative algorithms; Iterative methods; Multidimensional systems; Neuroscience; Polynomials; Signal processing algorithms;
Conference_Titel :
Neural Information Processing, 2002. ICONIP '02. Proceedings of the 9th International Conference on
Print_ISBN :
981-04-7524-1
DOI :
10.1109/ICONIP.2002.1201977
