International audienceIn this paper, a two-step methodology is developed to deinterlace RADAR signals. We mainly worked from a data simulator to obtain a large diversity of signals representing typical RADARs. First, a clustering algorithm is used to separate the pulses in the F-PW (Frequency-Pulse Width) plane, then a phase of cluster agglomeration is performed using the cluster output of the previous step as a features for an hierarchical agglomerative clustering combined with optimal transport distances. Results on labeled simulated data are given
In a number of applied studies of geophysics, medicine, cosmophysics, atomic physics and other field...
An important task in the Electronic Support Measures (ESM) field is analyzing and recognizing radar ...
Abstract Recent research treats radar emitter classification (REC) problems as typical closed-set c...
International audienceIn this paper, a two-step methodology is developed to deinterlace RADAR signal...
International audienceNew radar technologies present new challenges to Racons. Racons need to be mor...
Studying radar pulses and looking for certain patterns is critical in order to assess the threat lev...
In a high-density maritime environment, therecovery of radar pulse sequences presents a challenge to...
International audienceThe classification of radar emitters in a naval electronic-warfare (EW) contex...
More advanced recognition methods, which may recognize particular copies of radars of the same type,...
International audienceIdentifying RADAR transmitters represents a key challenge in electronic warfar...
International audienceIdentifying unknown RADAR emitters from received pulses is an important proble...
The authors propose a discrete wavelet transform-based unsupervised underdetermined blind source sep...
In this work, a new deinterleaving algorithm that can be used as a part of an ESM system and its imp...
With the progress of signal processing technology and the emergence of new system radars, the space ...
Abstract Radar signal deinterleaving is used to separate interleaved pulse streams in the electronic...
In a number of applied studies of geophysics, medicine, cosmophysics, atomic physics and other field...
An important task in the Electronic Support Measures (ESM) field is analyzing and recognizing radar ...
Abstract Recent research treats radar emitter classification (REC) problems as typical closed-set c...
International audienceIn this paper, a two-step methodology is developed to deinterlace RADAR signal...
International audienceNew radar technologies present new challenges to Racons. Racons need to be mor...
Studying radar pulses and looking for certain patterns is critical in order to assess the threat lev...
In a high-density maritime environment, therecovery of radar pulse sequences presents a challenge to...
International audienceThe classification of radar emitters in a naval electronic-warfare (EW) contex...
More advanced recognition methods, which may recognize particular copies of radars of the same type,...
International audienceIdentifying RADAR transmitters represents a key challenge in electronic warfar...
International audienceIdentifying unknown RADAR emitters from received pulses is an important proble...
The authors propose a discrete wavelet transform-based unsupervised underdetermined blind source sep...
In this work, a new deinterleaving algorithm that can be used as a part of an ESM system and its imp...
With the progress of signal processing technology and the emergence of new system radars, the space ...
Abstract Radar signal deinterleaving is used to separate interleaved pulse streams in the electronic...
In a number of applied studies of geophysics, medicine, cosmophysics, atomic physics and other field...
An important task in the Electronic Support Measures (ESM) field is analyzing and recognizing radar ...
Abstract Recent research treats radar emitter classification (REC) problems as typical closed-set c...
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