Showing papers by "David E. Smith published in 1985"

Observing tectonic plate motions and deformations from satellite laser ranging

Abstract: The scope of geodesy has been greatly affected by the advent of artificial near-earth satellites. The present paper provides a description of the results obtained from the reduction of data collected with the aid of satellite laser ranging. It is pointed out that dynamic reduction of satellite laser ranging (SLR) data provides very precise positions in three dimensions for the laser tracking network. The vertical components of the stations, through the tracking geometry provided by the global network and the accurate knowledge of orbital dynamics, are uniquely related to the center of mass of the earth. Attention is given to the observations, the methodologies for reducing satellite observations to estimate station positions, Lageos-observed tectonic plate motions, an improved temporal resolution of SLR plate motions, and the SLR vertical datum.

Space Techniques for Earthquake Studies

Abstract: During the last decade the techniques of satellite laser ranging and very long baseline interferometry have been developed to the level where the relative motions of points on the earth can be measured to accuracies of a few centimeters. These techniques are being used in many parts of the world to monitor the apparent large scale motions of the major tectonic plates and the stability of these plate interiors. During the next 5 years we can expect the motions of many plates and plate interiors to have been measured to an accuracy of ± 1 cm/yr averaged over about 5 years and that the stability of these motions will be one of the major questions. During the last few years the application of the Global Positioning System (GPS) to geodesy has been a major development area. This technique is now in final stages of testing and is participating in experimental observ­ing programs. The GPS system technology is ideally suited for application to problems of regional surveying and is expected to provide a few centimeter accuracy over baseline distances of several hundred kilometers. The GPS systems are lightweight, need a minimum of support, and remain on site only a few hours to collect sufficient data. These systems, coupled with the very long baseline capability of laser ranging and very long baseline in­terferometry, will provide the extension of ground based geodesy and global geodetic con­trol to the whole world.