par Gontier, Quentin 
;Petrillo, Luca ;Rottenberg, François ;Horlin, François ;Wiart, Joe JW;Oestges, Claude ;De Doncker, Philippe
Référence (14-23 June, 2021: Montreal, Canada), Proc. of the IEEE International Conference on Communications (ICC)
Publication Publié, 2021-06
;Petrillo, Luca ;Rottenberg, François ;Horlin, François ;Wiart, Joe JW;Oestges, Claude ;De Doncker, Philippe Référence (14-23 June, 2021: Montreal, Canada), Proc. of the IEEE International Conference on Communications (ICC)
Publication Publié, 2021-06
Publication dans des actes
| Résumé : | Exposure to electromagnetic fields due to cellularnetworks in an urban environment is studied using stochasticgeometry. We describe a simple but functional and realisticsemi-empirical model based on the modeling of base stationpatterns as Poisson Point Processes and applied to two Brusselsmunicipalities. Using this model, a study of the impact of basestation densification is performed according to two theoreticalscenarios. From simple assumptions, it is concluded that globalexposure is expected to remain approximately constant in thecase of intelligent network evolution involving the densificationof macro cells and the addition of a network of low-power smallcells. |
