Neural network for modeling financial time series: A new approach

Abstract

From Takens Theorem, we know that we can characterize the autonomous part of a dynamical system by a sequence of observations. If we want to force a neural net to learn this dynamics, we can use a sequence of time horizons as output But in normal network structures these different outputs are learned nearly independently. By a new net architecture we allow additional information flows between the different outputs and as a sequence we get a better representation of the underlying dynamical system. The net is based on multilayer feed forward architecture. The model can then be converted to its equivalent nonlinear state space representation. Using this state space form, a Coupled Neural Net algorithm based on Extended Kalman Filter is derived to estimate the state. We analyze the net of a chaotic time series (Logistic map) by using the dynamical invariant that characterizes the attractor, the largest lyaponov exponent. A detailed step by step description of the methodology is presented to facilitate the use of this new method. The pertinence of this model is discussed from the Tunisian Stock Exchange database. © Springer-Verlag 2003.