LOCUNET: FAST URBAN POSITIONING USING RADIO MAPS AND DEEP LEARNING
Çagkan Yapar, Giuseppe Caire, Ron Levie, Gitta Kutyniok
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This paper deals with the problem of localization in a cellular network in a dense urban scenario. GNSS typically perform poorly in urban environments, where the likelihood of line-of-sight conditions is low, and thus alternative localization methods are required for good accuracy. We present LocUNet: A deep learning method for localization, based merely on RSS from Base Stations (BSs), which does not require any increase in computation complexity at the user devices with respect to the device standard operations, unlike methods that rely on time of arrival or angle of arrival information. In the proposed method, the user to be localized reports the RSS from BSs to a central processing unit (CPU), which may be located in the cloud. Alternatively, the localization can be performed locally at the user. Using estimated pathloss radio maps of the BSs, LocUNet can localize users with state-of-the-art accuracy and enjoys high robustness to inaccuracies in the radio maps. The proposed method does not require pre-sampling of the environment; and is suitable for real-time applications, thanks to the RadioUNet, a neural network based radio map estimator. We also introduce two datasets that allow numerical comparisons of RSS and ToA methods in realistic urban environments.