Method

PointRGCN: Graph Convolution Networks for 3D Vehicles Detection Refinement [PointRGCN]


Submitted on 27 Nov. 2019 12:50 by
Jesus Zarzar (KAUST)

Running time:0.26 s
Environment:GPU @ V100 (Python)

Method Description:
Intra- and inter-proposal GCN networks.
Parameters:
5-layer R-GCN and 3-layer C-GCN.
Latex Bibtex:
@article{Zarzar2019PointRGCNGC,
title={PointRGCN: Graph Convolution Networks for
3D Vehicles Detection Refinement},
author={Jesus Zarzar and Silvio Giancola and
Bernard Ghanem},
journal={ArXiv},
year={2019},
volume={abs/1911.12236}
}

Detailed Results

Object detection and orientation estimation results. Results for object detection are given in terms of average precision (AP) and results for joint object detection and orientation estimation are provided in terms of average orientation similarity (AOS).


Benchmark Easy Moderate Hard
Car (Detection) 97.51 % 92.33 % 87.07 %
Car (Orientation) 97.48 % 92.15 % 86.83 %
Car (3D Detection) 85.97 % 75.73 % 70.60 %
Car (Bird's Eye View) 91.63 % 87.49 % 80.73 %
This table as LaTeX


2D object detection results.
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Orientation estimation results.
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3D object detection results.
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Bird's eye view results.
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