Robert R. McDougal scite author profile

[1] Imaging spectroscopy is a tool that can be used to spectrally identify and spatially map materials based on their specific chemical bonds. Spectroscopic analysis requires significantly more sophistication than has been employed in conventional broadband remote sensing analysis. We describe a new system that is effective at material identification and mapping: a set of algorithms within an expert system decision-making framework that we call Tetracorder. The expertise in the system has been derived from scientific knowledge of spectral identification. The expert system rules are implemented in a decision tree where multiple algorithms are applied to spectral analysis, additional expert rules and algorithms can be applied based on initial results, and more decisions are made until spectral analysis is complete. Because certain spectral features are indicative of specific chemical bonds in materials, the system can accurately identify and map those materials. In this paper we describe the framework of the decision making process used for spectral identification, describe specific spectral feature analysis algorithms, and give examples of what analyses and types of maps are possible with imaging spectroscopy data. We also present the expert system rules that describe which diagnostic spectral features are used in the decision making process for a set of spectra of minerals and other common materials. We demonstrate the applications of Tetracorder to identify and map surface minerals, to detect sources of acid rock drainage, and to map vegetation species, ice, melting snow, water, and water pollution, all with one set of expert system rules. Mineral mapping can aid in geologic mapping and fault detection and can provide a better understanding of weathering, mineralization, hydrothermal alteration, and other geologic processes. Environmental site assessment, such as mapping source areas of acid mine drainage, has resulted in the acceleration of site cleanup, saving millions of dollars and years in cleanup time. Imaging spectroscopy data and Tetracorder analysis can be used to study both terrestrial and planetary science problems. Imaging spectroscopy can be used to probe planetary systems, including their atmospheres, oceans, and land surfaces.

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Remote sensing for environmental site screening and watershed evaluation in Utah Mine lands: East Tintic mountains, Oquirrh mountains, and Tushar mountains

Rockwell¹,

McDougal²,

Gent³

2005

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The figures presented in this report have been digitally compressed for efficient downloading during Web viewing and for ease of browsing through the CD-ROM. For most of the figures, however, there is also a fullresolution file in PDF format that can be accessed via the red link below the figure caption. Clicking on the red links will open the full-resolution files either in a new Web browser window or within Adobe Acrobat Reader. Most of the full-resolution files are in very high resolution PDF format that is suitable for printing and detailed viewing at large scales. These full-resolution maps of the Utah mine lands were the principal information source for this report and are made available for further interpretation. To enhance ease of use, all references to figures and tables within the text are active links to those figures and tables. Click on them to quickly view the referenced object. To return to your original place in the text, click the "Previous View" button within Adobe Acrobat Reader (if viewing a PDF file). In Acrobat 7, the "Previous View" button is the green-circled, left-pointing white arrow (shortcut: Alt + Left Arrow).

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Soil disturbance as a driver of increased stream salinity in a semiarid watershed undergoing energy development

Bern

Clark

Schmidt

et al. 2015

Journal of Hydrology

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Mapping surface disturbance of energy-related infrastructure in southwest Wyoming--An assessment of methods

Germaine¹,

O’Donnell²,

Aldridge³

et al. 2012

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