Add to ORKGAbstract—Robustness of nominal Global Navigation Satellite Systems (GNSS) performance can be enhanced by means of complimentary systems, such as the Long Term Evolution (LTE). Particularly, the LTE standard specifies a dedicated downlink sig-nal for positioning purposes, i.e. the positioning reference signal (PRS). This paper presents the achievable localization accuracy of the PRS signal for different interference LTE scenarios by means of the Crámer-Rao bound (CRB) for time delay estimation, in order to assess the LTE positioning capabilities. I
Accurate position solutions are in high demand for many emerging applications. Global navigation sat...
Trilateration is the mathematical theory of computing the intersection of circles. These circles may...
The objective of this paper is to analyze positioning performance utilizing cellular mobile radio sy...
Abstract—The ranging performance of the Long Term Evolu-tion (LTE) positioning reference signal (PRS...
This thesis presents a research work on the estimation of the time of arrival (TOA) of modern cellul...
GNSS is excellent in open-sky conditions, but in many everyday situations such as traveling in urban...
Several factors impact in practice on the achievable accuracy of wireless positioning systems. Howev...
A new approach is described for investigating the accuracy of positioning active long-term evolution...
Precise user equipment (UE) location is paramount for the reliable operation of location-based servi...
Precise user equipment (UE) location is paramount for the reliable operation of location-based servi...
Among the user equipment (UE) assisted position applications in Long Term Evolution (LTE), the obser...
Abstract—Long Term Evolution (LTE) signals are a very good complement to Global Navigation Satellite...
Positioning accuracy in satellite navigation systems depends on time-delay estimation (TDE) between ...
Global navigation satellite systems (GNSSs) can deliver very good position estimates under optimum c...
Services and applications based on accurate knowledge of the mobile terminal (MT) location play a fu...
Accurate position solutions are in high demand for many emerging applications. Global navigation sat...
Trilateration is the mathematical theory of computing the intersection of circles. These circles may...
The objective of this paper is to analyze positioning performance utilizing cellular mobile radio sy...
Abstract—The ranging performance of the Long Term Evolu-tion (LTE) positioning reference signal (PRS...
This thesis presents a research work on the estimation of the time of arrival (TOA) of modern cellul...
GNSS is excellent in open-sky conditions, but in many everyday situations such as traveling in urban...
Several factors impact in practice on the achievable accuracy of wireless positioning systems. Howev...
A new approach is described for investigating the accuracy of positioning active long-term evolution...
Precise user equipment (UE) location is paramount for the reliable operation of location-based servi...
Precise user equipment (UE) location is paramount for the reliable operation of location-based servi...
Among the user equipment (UE) assisted position applications in Long Term Evolution (LTE), the obser...
Abstract—Long Term Evolution (LTE) signals are a very good complement to Global Navigation Satellite...
Positioning accuracy in satellite navigation systems depends on time-delay estimation (TDE) between ...
Global navigation satellite systems (GNSSs) can deliver very good position estimates under optimum c...
Services and applications based on accurate knowledge of the mobile terminal (MT) location play a fu...
Accurate position solutions are in high demand for many emerging applications. Global navigation sat...
Trilateration is the mathematical theory of computing the intersection of circles. These circles may...
The objective of this paper is to analyze positioning performance utilizing cellular mobile radio sy...