Abstract :
The use of remote sensing to uncover the skeleton of the seismosaurus, a dinosaur at least 37 meters long, is discussed. Most of the seismosaurus skeleton is believed to lie under 3 to 5 m of sandstone, in a government preserve, so the dig must disturb the environment as little as possible. The techniques being used are radar, magnetometry, gamma rays and acoustic tomography.<>
Keywords :
acoustic imaging; archaeology; gamma-ray applications; magnetometers; radar applications; remote sensing; acoustic tomography; archaeology; dig; dinosaur; gamma rays; magnetometry; radar; remote sensing; sandstone; seismosaurus; skeleton; Bones; Dinosaurs; Geology; Laboratories; Magnetosphere; Radar; Remote sensing; Skeleton; Tail; Testing;
