Title :
Propagation modeling and system strategies in mobile-satellite urban scenarios
Author :
Oestges, Claude ; Vanhoenacker-Janvier, Danielle
Author_Institution :
Microelectron. Lab., Univ. Catholique de Louvain, Belgium
fDate :
3/1/2001 12:00:00 AM
Abstract :
Land mobile satellite (LMS) systems require fade countermeasure techniques since they suffer from limited fade margins and severe channel degradations. In the view of complete statistical models for LMS systems in urban areas, this paper deals with several specific mobile satellite urban configurations, such as a long straight street lined on both sides by buildings and a crossroad. Propagation effects are modeled as time series of received power by means of a ray-tracing method, which is used in combination with an orbit generator. The time series results are then postprocessed to simulate the impact of propagation mechanisms and satellite motion on fade mitigation techniques, satellite handover, and diversity. This original approach inherently accounts for the correlation between a number of very different but simultaneous effects that influence system performance. Exemplary results are finally discussed to stress the capability of the time-series approach
Keywords :
UHF radio propagation; fading channels; land mobile radio; mobile satellite communication; ray tracing; time-varying channels; 1.6 GHz; LMS system; LMS systems; UHF; channel degradation; diversity; fade countermeasure techniques; fade margins; land mobile satellite systems; long straight street; mobile-satellite urban scenarios; propagation modeling; ray-tracing; received power; satellite handover; satellite motion; statistical models; system performance; system strategies; time series; Context modeling; Laboratories; Least squares approximation; Physical theory of diffraction; Power system modeling; Predictive models; Ray tracing; Satellites; Shadow mapping; Urban areas;
Journal_Title :
Vehicular Technology, IEEE Transactions on
