A study was conducted to determine satellite orbits for earth observation missions aimed at obtaining data for assessing data global climate change. A multisatellite system is required to meet the scientific requirements for temporal coverage over the globe. The best system consists of four sun-synchronous satellites equally spaced in local time of equatorial crossing. This system can obtain data every three hours for all regions. Several other satellite systems consisting of combinations of sun-synchronous orbits and either the Space Station Freedom or a mid-altitude equatorial satellite can provide three to six hour temporal coverage, which is sufficient for measuring many of the parameters required for the global change monitoring mission. Geosynchronous satellites are required to study atmospheric and surface processes involving variations on the order of a few minutes to an hour. One or two geosynchronous satellites can be relocated in longitude to study processes over selected regions of earth.
Satellite Orbit Considerations for a Global Change Technology Architecture Trade Study
1991
18 pages
Report
Keine Angabe
Englisch
Meteorological Data Collection, Analysis, & Weather , Spacecraft Trajectories & Flight Mechanics , Climate change , Climatology , Earth observations (From space) , Mission planning , Satellite orbits , Satellite observation , Geosynchronous orbits , Scientific satellites , Space stations , Synchronous satellites