Wavelet-based cascade model for intermittent structure in terrestrial environments
Abstract
A wavelet-like model for distributions of objects in natural and man-made terrestrial environments is developed. The model is constructed in a self-similar fashion, with the sizes, amplitudes, and numbers of objects occurring at a constant ratios between parent and offspring objects. The objects are randomly distributed in space according to a Poisson process. Fractal supports and a cascade model are used to organize objects intermittently in space. In its basic form, the model is for continuously varying random fields, although a level-cut is introduced to model two-phase random media. The report begins with a description of relevant concepts from fractal theory, and then progresses through static (time-invariant), steady-state, and non-steady models. The results can be applied to such diverse phenomena as turbulence, geologic distributions, urban buildings, vegetation, and arctic ice floes. The model can be used as a basis for synthesizing realistic terrestrial scenes, and for predicting the performance of sensing and communication systems in operating environments with complex, intermittent distributions of scattering objects.
Cite
@article{arxiv.1312.5649,
title = {Wavelet-based cascade model for intermittent structure in terrestrial environments},
author = {D. Keith Wilson and Chris L. Pettit and Sergey N. Vecherin},
journal= {arXiv preprint arXiv:1312.5649},
year = {2013}
}
Comments
58 pages, 39 figures