Towards reliable sub-division of geological areas: interval approach

Author

Coblentz, David D. ; Kreinovich, Vladik ; Penn, Brian S. ; Starks, Scott A.

Author_Institution

NASA Pan American Center for Earth & Environ. Studies, Texas Univ., El Paso, TX, USA

fYear

2000

fDate

2000

Firstpage

368

Lastpage

372

Abstract

An appropriate subdivision of a geophysical area into segments enables us to extrapolate the results obtained in some locations within the segment (where extensive research was done) to other locations within the same segment, and thus, get a good understanding of the locations which weren´t thoroughly analyzed. Often, different evidence and different experts´ intuition support different subdivision schemes. For example, in our area-Rio Grande rift zone-there is some geochemical evidence that this zone is divided into three segments, but, in the viewpoint of many researchers, this evidence is not yet sufficiently convincing. We show that if we use topographical information (this information, e.g., comes from satellite photos), then interval methods lead to a reliable justification for the tripartite subdivision of the Rio Grande rift zone

Keywords

faulting; geophysics computing; image classification; image segmentation; spatial reasoning; topography (Earth); uncertainty handling; Rio Grande rift zone; geological areas; interval approach; reliable sub-division; subdivision schemes; topographical information; tripartite subdivision; Chemical analysis; Earth; Fourier transforms; Geology; Geophysics; Large-scale systems; NASA; Satellites; Springs; Surfaces;

fLanguage

English

Publisher

ieee

Conference_Titel

Fuzzy Information Processing Society, 2000. NAFIPS. 19th International Conference of the North American

Conference_Location

Atlanta, GA

Print_ISBN

0-7803-6274-8

Type

conf

DOI

10.1109/NAFIPS.2000.877454

Filename

877454