Teleonomic entropy: measuring the phase-space of end-directed systems


Autoria(s): Pudmenzky, Alexander
Data(s)

01/01/2005

Resumo

We introduce a novel way of measuring the entropy of a set of values undergoing changes. Such a measure becomes useful when analyzing the temporal development of an algorithm designed to numerically update a collection of values such as artificial neural network weights undergoing adjustments during learning. We measure the entropy as a function of the phase-space of the values, i.e. their magnitude and velocity of change, using a method based on the abstract measure of entropy introduced by the philosopher Rudolf Carnap. By constructing a time-dynamic two-dimensional Voronoi diagram using Voronoi cell generators with coordinates of value- and value-velocity (change of magnitude), the entropy becomes a function of the cell areas. We term this measure teleonomic entropy since it can be used to describe changes in any end-directed (teleonomic) system. The usefulness of the method is illustrated when comparing the different approaches of two search algorithms, a learning artificial neural network and a population of discovering agents. (C) 2004 Elsevier Inc. All rights reserved.

Identificador

http://espace.library.uq.edu.au/view/UQ:71590

Idioma(s)

eng

Publicador

Elsevier

Palavras-Chave #Mathematics, Applied #Carnap Entropy #Teleonomic Entropy #Teleonomic Creativity #Phase-space #Voronoi Diagram #Artificial Neural Network #Agent System #C1 #230100 Mathematics #671304 Data, image and text equipment
Tipo

Journal Article