Seasonal changes in fractal landscape surface roughness estimated from airborne laser altimetry data

TitleSeasonal changes in fractal landscape surface roughness estimated from airborne laser altimetry data
Publication TypeJournal Article
Year of Publication1998
AuthorsPachepsky Y., Ritchie J
JournalInternational Journal of Remote Sensing
Volume19
Pagination2509-2516
Date Published1998
Call Number00764
Keywordsarticle, articles, fractal geometry, remote sensing, JORNEX, remote sensing, journal, journals, landscape, surface roughness, laser altimetry, surface roughness, remote sensing, airborne laser altimetry, remote sensing, fractal geometry, remote sensing, JORNEX, remote sensing, surface roughness, technique, airborne laser altimetry, technique, remote sensing, water balance, remote sensing
AbstractFractal geometry is a useful tool for the analysis of landscape data. In this study fractal scaling was applied to high-resolution landscape data collected with a profiling laser altimeter. The objective of this work was to assess the persistence of scaling differences over time. Data were collected at the United States Department of Agriculture (USDA), Agriculture Research Service (ARS) Jornada Experimental Range in New Mexico, USA in May and September 1995 and February 1996 over a grass-dominated site, a shrub-dominated site, and a transitional area between shrub- and grass-dominated sites along four transects at each site for each data. Root-mean-square (RMS) roughness was scale-dependent and had more than one range of self-affine scaling. Different numbers of self-affine scaling intervals, boundaries of intervals, and fractal dimensions over these intervals were associated with different land covers. A linearity measure was applied to find intervals of fractal scaling. The number and boundaries of fractal scaling intervals appeared to be persistent over the year. Grass sand shrub sites had two and four linearity intervals respectively. The transitional site had a pattern of scaling that was intermediate between grass and shrub sites. The lowest fractal dimensions at small scales of 6-30 m corresponded to the maximum vegetation in September.
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