par Horlin, François 
;Van Eeckhaute, Mathieu ;Van der Vorst, Thomas ;Bourdoux, André ;Quitin, François ;De Doncker, Philippe
Référence (21-25 May, 2017: Paris, France), Proc. of the IEEE International Conference on Communications, ICC
Publication Publié, 2017-05
;Van Eeckhaute, Mathieu ;Van der Vorst, Thomas ;Bourdoux, André ;Quitin, François ;De Doncker, Philippe Référence (21-25 May, 2017: Paris, France), Proc. of the IEEE International Conference on Communications, ICC
Publication Publié, 2017-05
Publication dans des actes
| Résumé : | Emerging cellular networks integrate the user terminal geo-localization function besides the communication function. The conventional positioning approach is to estimate the terminal location in two-steps: first the distance to all connected base stations is assessed based on signal time-of-flight measurements, then the location is deduced from the distances by multilateration. The two-step approach incurs a performance degradation because information is lost from the received signal when the multi-lateration is performed. In this paper, we propose to iterate between the two conventional steps to progressively refine the distance estimates based on the knowledge of the position estimate obtained from the previous iterations. The information exchanged between the two-steps not only consists in the mean of the estimates (distance or position) but also of their variance that convey information about the reliability of the estimates. Simulation results show that the achievable performance after a few iterations is close to the performance of the optimal approach that directly estimates the position based on the observation of the received signal. |
