Archivio Istituzionale della RicercaIn this paper a detailed evaluation of the performance of the architecture named “Turbo Delay Lock Loop” (TurboDLL) is presented. Such an architecture has been introduced by the authors in [1], as an innovative solution for improving the performance of satellite navigation receivers in multipath affected scenarios. The relevant innovation resides in the fact that the architecture aims at tracking each multipath component and, after a transient time, use them to wipe the multipath components off the input signal. The iterative procedure allows for a major improvement in the error induced in the code-based pseudorange measurement. The architecture uses a preliminary estimation of the propagation channel in terms of number of not negligible reflections, and of their relative amplitude. In this paper the robustness of the TurboDLL architecture with respect to imperfect channel estimation is demonstrated.
Performance Assessment of the TurboDLL for Satellite Navigation Receivers / Dovis, Fabio; Pini, Marco; P., Mulassano. - STAMPA. - (2006), pp. 273-282. (Intervento presentato al convegno Tyrrhenian International Workshop on Digital Communications 2006 tenutosi a Ponza (LT), Italy nel September 6-8, 2006) [10.1007/978-0-387-47524-0_20].
Performance Assessment of the TurboDLL for Satellite Navigation Receivers
DOVIS, Fabio;PINI, MARCO;
2006
Abstract
In this paper a detailed evaluation of the performance of the architecture named “Turbo Delay Lock Loop” (TurboDLL) is presented. Such an architecture has been introduced by the authors in [1], as an innovative solution for improving the performance of satellite navigation receivers in multipath affected scenarios. The relevant innovation resides in the fact that the architecture aims at tracking each multipath component and, after a transient time, use them to wipe the multipath components off the input signal. The iterative procedure allows for a major improvement in the error induced in the code-based pseudorange measurement. The architecture uses a preliminary estimation of the propagation channel in terms of number of not negligible reflections, and of their relative amplitude. In this paper the robustness of the TurboDLL architecture with respect to imperfect channel estimation is demonstrated.
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https://hdl.handle.net/11583/1709182
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