Add to ORKGInternational audienceThis paper proposes an extended version of the Maximum Likelihood Estimation Detector (MLED) that can operate in severe heterogeneous environment for slow moving target detection in ground clutter using space-time adaptive processing (STAP). Unlike the MLED, the extended version called STOP-BAND APES does not suffer from the high Doppler resolution properties of the MLED leading to severe extra computational burden. Performances are illustrated on realistic synthetic data
National audienceCet article propose une version étendue du Maximum Likelihood Estimation Detector (...
In this paper we propose and assess TBD strategies for radar systems adopting STAP. At the design s...
In this paper we propose and assess TBD strategies for radar systems adopting STAP. At the design s...
International audienceThis paper proposes an extended version of the Maximum Likelihood Estimation D...
Cet article propose une version étendue du Maximum Likelihood Estimation Detector (MLED) particuliè...
International audienceIn an airborne radar context, heterogeneous situations are a serious concern f...
International audienceIn an airborne radar context, heterogeneous situations are a serious concern f...
International audienceIn an airborne radar context, heterogeneous situations are a serious concern f...
International audienceClassical space-time adaptive processing (STAP) detectors are strongly limited...
International audienceClassical space-time adaptive processing (STAP) detectors are strongly limited...
International audienceClassical space-time adaptive processing (STAP) detectors are strongly limited...
International audienceClassical space-time adaptive processing (STAP) detectors are strongly limited...
International audienceClassical space-time adaptive processing (STAP) detectors are strongly limited...
International audienceClassical space-time adaptive processing (STAP) detectors are strongly limited...
National audienceCet article propose une version étendue du Maximum Likelihood Estimation Detector (...
National audienceCet article propose une version étendue du Maximum Likelihood Estimation Detector (...
In this paper we propose and assess TBD strategies for radar systems adopting STAP. At the design s...
In this paper we propose and assess TBD strategies for radar systems adopting STAP. At the design s...
International audienceThis paper proposes an extended version of the Maximum Likelihood Estimation D...
Cet article propose une version étendue du Maximum Likelihood Estimation Detector (MLED) particuliè...
International audienceIn an airborne radar context, heterogeneous situations are a serious concern f...
International audienceIn an airborne radar context, heterogeneous situations are a serious concern f...
International audienceIn an airborne radar context, heterogeneous situations are a serious concern f...
International audienceClassical space-time adaptive processing (STAP) detectors are strongly limited...
International audienceClassical space-time adaptive processing (STAP) detectors are strongly limited...
International audienceClassical space-time adaptive processing (STAP) detectors are strongly limited...
International audienceClassical space-time adaptive processing (STAP) detectors are strongly limited...
International audienceClassical space-time adaptive processing (STAP) detectors are strongly limited...
International audienceClassical space-time adaptive processing (STAP) detectors are strongly limited...
National audienceCet article propose une version étendue du Maximum Likelihood Estimation Detector (...
National audienceCet article propose une version étendue du Maximum Likelihood Estimation Detector (...
In this paper we propose and assess TBD strategies for radar systems adopting STAP. At the design s...
In this paper we propose and assess TBD strategies for radar systems adopting STAP. At the design s...