Technical Approach

To determine if selected artifacts can be remotely detected involves measuring the spectra of a variety of artifacts under both field and laboratory conditions. This data then will be put into a “detection limits” model to predict the amount of material that is theoretically detectable using any given remote sensing device. The two target materials involved in this study, ceramic pot sherds and obsidian tools, were chosen because of the abundance of these materials on archaeological sites in the semi-arid West and the potential for these two materials to demonstrate unique spectral signatures. Los Alamos National Laboratory in New Mexico has been selected as a study site because of the tremendous amounts of ceramic sherds found there. The China Lake Naval Air Weapons Station in California has been selected as a second study site because of its large obsidian quarries. Two thermal infrared instruments (TIR) and one visible/near infrared instrument will be used to collect field data of representative background and target materials from the study sites. A portable Advanced Spectral Devices field spectrometer will be used to collect data from the same study areas which then will be scanned using the TIR instruments. Mathematical procedures developed at the University of Washington Geological Sciences Remote Sensing Laboratory will be used for determining the threshold detection limits of the target materials.