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International audienceIn satellite navigation system, classical localization algorithms assume that the observation noise is white-Gaussian. This assumption is not correct when the signal is reflected on the surrounding obstacles. That leads to a decrease of accuracy and of continuity of service. To enhance the localization performances, a better observation noise density can be use in an adapted filtering process. This article aims to show how the Dirich-let Process Mixture can be employed to track the observation density on-line. This sequential estimation solution is adapted when the noise is non-stationary. The approach will be tested under a simulation scenario with multiple propagation conditions. Then, this density modeling will be u...
In urban areas or space-constrained environments with obstacles, vehicle localization using Global N...
Most of the GNSS-based transport applications are employed in dense urban areas. One of the reasons ...
International audienceThe Dirichlet Process Mixture (DPM) models represent an attractive approach to...
International audienceIn satellite navigation system, classical localization algorithms assume that ...
International audienceGNSS localization is accurate in clear environment where the pseudorange noise...
International audienceIn Global Navigation Satellite Systems (GNSS) positioning, the receiver measur...
International audienceIn global positioning systems (GPS), classical localization algorithms assume,...
In Global Positioning System (GPS), classical localization algorithms assume, when the signal is rec...
Today, the GNSS are largely present in the transport field. Currently, the scientific community aims...
Abstract — The reception state of a satellite is an unavailable information for Global Navigation Sa...
International audienceThe reception state of a satellite is an unavailable information for Global Na...
In urban areas or space-constrained environments with obstacles, vehicle localization using Global N...
Most of the GNSS-based transport applications are employed in dense urban areas. One of the reasons ...
International audienceThe Dirichlet Process Mixture (DPM) models represent an attractive approach to...
International audienceIn satellite navigation system, classical localization algorithms assume that ...
International audienceGNSS localization is accurate in clear environment where the pseudorange noise...
International audienceIn Global Navigation Satellite Systems (GNSS) positioning, the receiver measur...
International audienceIn global positioning systems (GPS), classical localization algorithms assume,...
In Global Positioning System (GPS), classical localization algorithms assume, when the signal is rec...
Today, the GNSS are largely present in the transport field. Currently, the scientific community aims...
Abstract — The reception state of a satellite is an unavailable information for Global Navigation Sa...
International audienceThe reception state of a satellite is an unavailable information for Global Na...
In urban areas or space-constrained environments with obstacles, vehicle localization using Global N...
Most of the GNSS-based transport applications are employed in dense urban areas. One of the reasons ...
International audienceThe Dirichlet Process Mixture (DPM) models represent an attractive approach to...
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