In this paper different propagation models for coverage prediction of WiMAX microcellular and picocellular urban environments and for WiMAX indoor femtocells at 3.5 GHz are compared with experimental data. Results obtained for different urban and indoor environments show that statistical models are quite far from good agreement with experimental data while deterministic ray-tracing models provide appropriate prediction in all different complex analyzed environments.
M. Barbiroli, C.Carciofi, V. Degli Esposti, F. Fuschini, P. Grazioso, D. Guiducci, et al. (2010). Characterization of WiMax propagation in microcellular and picocellular environments. s.l : s.n.
Characterization of WiMax propagation in microcellular and picocellular environments
BARBIROLI, MARINA;CARCIOFI, CLAUDIA;DEGLI ESPOSTI, VITTORIO;FUSCHINI, FRANCO;
2010
Abstract
In this paper different propagation models for coverage prediction of WiMAX microcellular and picocellular urban environments and for WiMAX indoor femtocells at 3.5 GHz are compared with experimental data. Results obtained for different urban and indoor environments show that statistical models are quite far from good agreement with experimental data while deterministic ray-tracing models provide appropriate prediction in all different complex analyzed environments.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
