ALOPEX

ALOPEX (an acronym from "ALgorithms Of Pattern EXtraction") is a correlation based machine learning algorithm first proposed by Tzanakou and Harth in 1974.

Principle[edit]

In machine learning, the goal is to train a system to minimize a cost function or (referring to ALOPEX) a response function. Many training algorithms, such as backpropagation, have an inherent susceptibility to getting "stuck" in local minima or maxima of the response function. ALOPEX uses a cross-correlation of differences and a stochastic process to overcome this in an attempt to reach the absolute minimum (or maximum) of the response function.

Method[edit]

ALOPEX, in its simplest form is defined by an updating equation:

$\Delta \ W_{ij}(n)=\gamma \ \Delta \ W_{ij}(n-1)\Delta \ R(n)+r_{i}(n)$

Where:

$n\geq 0$ is the iteration or time-step.
$\Delta \ W_{ij}(n)$ is the difference between the current and previous value of system variable $\ W_{ij}$ at iteration $n$ .
$\Delta \ R(n)$ is the difference between the current and previous value of the response function $\ R,$ at iteration $n$ .
$\gamma$ is the learning rate parameter $(\gamma \ <0$ minimizes $R,$ and $\gamma \ >0$ maximizes $R\ )$
$r_{i}(n)\sim \ N(0,\sigma \ ^{2})$

Discussion[edit]

Essentially, ALOPEX changes each system variable $W_{ij}(n)$ based on a product of: the previous change in the variable $\Delta$ $W_{ij}(n-1)$ , the resulting change in the cost function $\Delta$ $R(n)$ , and the learning rate parameter $\gamma$ . Further, to find the absolute minimum (or maximum), the stochastic process $r_{ij}(n)$ (Gaussian or other) is added to stochastically "push" the algorithm out of any local minima.

References[edit]

Harth, E., & Tzanakou, E. (1974) Alopex: A stochastic method for determining visual receptive fields. Vision Research, 14:1475-1482. Abstract from ScienceDirect