2018 IEEE Intelligent Vehicles Symposium (IV) 2018
DOI: 10.1109/ivs.2018.8500554
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Pedestrian Classification for 79 GHz Automotive Radar Systems

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Cited by 30 publications
(14 citation statements)
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“…First applied on SAR data, classification algorithms have been recently applied to distinguish between various types of targets detected by radar [117]- [120]. A special case of target identification that has attracted particular interest is the recognition of vulnerable road users (VRU) such as pedestrians, either based on µDoppler signatures [121]- [123], range-velocity spectra [124], [125], or other [126]. Besides classification of specific targets, deep learning can provide better scene understanding by semantic segmentation [127].…”
Section: E Machine Learning and Automotive Radarmentioning
confidence: 99%
“…First applied on SAR data, classification algorithms have been recently applied to distinguish between various types of targets detected by radar [117]- [120]. A special case of target identification that has attracted particular interest is the recognition of vulnerable road users (VRU) such as pedestrians, either based on µDoppler signatures [121]- [123], range-velocity spectra [124], [125], or other [126]. Besides classification of specific targets, deep learning can provide better scene understanding by semantic segmentation [127].…”
Section: E Machine Learning and Automotive Radarmentioning
confidence: 99%
“…However, despite this approach is well-suited for static-objects, it fails on dynamic ones, as the object velocity needs to be tracked to avoid generating a tail of reflections. Another classical radar processing approach consists in three steps: clustering, extraction of hand-crafted features and classification [20]. Wöhler et al [25] designed a method which uses DBSCAN [7] at the clustering stage.…”
Section: Deep Learning On Radar Datamentioning
confidence: 99%
“…In the other previous research, the moving pedestrian was detected, tracked, and its shape was measured by using four-dimensional radar processing and particle filter applying to detected point cloud [8]. Furthermore, machine learning was used for pedestrian classification in 79 GHz automotive radar systems [9]. However, the amount of calculation in these methods increases according to the number of point clouds and not suitable for real-time and cost performance required to personal mm-wave radar device.…”
Section: Introductionmentioning
confidence: 99%