Title :
Pattern recognition device using scalar vector graphics
Abstract :
Scalar vector graphics (SVG), an Extensible Markup Language (XML) based graphical language can be used to recognized patterns in categorized binary strings. We show how binary trees can be constructed where the hierarchical structure of the SVG file is a mirror of the hierarchical structure of the tree. We also show that this binary SVG structure can model a neuron by a applying a temporal signal to the leaves and summing the values of attributes of adjacent nodes. We present this as a framework, which can represent the geometric properties of the neuron while simultaneously defining valid logical paths for signal transmission. Because SVG is an XML based technology it is an excellent medium for representing tree based structures and processes. Additionally, the line and color properties of SVG provide an excellent way to view the state of a network at any given time.
Keywords :
XML; binary decision diagrams; neural nets; pattern recognition; trees (mathematics); visual languages; SVG color properties; SVG file hierarchical structure; SVG line properties; XML; adjacent nodes; binary trees; categorized binary strings; extensible markup language; graphical language; logical paths; neuron geometric properties; pattern recognition device; scalar vector graphics; signal transmission; temporal signal; Binary trees; Decision trees; Graphics; Mirrors; Navigation; Neurons; Pattern recognition; Plugs; Tree graphs; XML;
Conference_Titel :
Neural Networks, 2003. Proceedings of the International Joint Conference on
Print_ISBN :
0-7803-7898-9
DOI :
10.1109/IJCNN.2003.1223747
