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Leveraging Dynamic Occupancy Grids for 3D Object Detection in Point Clouds

Abstract : Traditionally, point cloud-based 3D object detectors are trained on annotated, non-sequential samples taken from driving sequences (e.g. the KITTI dataset). However, by doing this, the developed algorithms renounce to exploit any dynamic information from the driving sequences. It is reasonable to think that this information, which is available at test time when deploying the models in the experimental vehicles, could have significant predictive potential for the object detection task. To study the advantages that this kind of information could provide, we construct a dataset of dynamic occupancy grid maps from the raw KITTI dataset and find the correspondence to each of the KITTI 3D object detection dataset samples. By training a Lidar-based state-of-the-art 3D object detector with and without the dynamic information we get insights into the predictive value of the dynamics. Our results show that having access to the environment dynamics improves by 27% the ability of the detection algorithm to predict the orientation of smaller obstacles such as pedestrians. Furthermore, the 3D and bird's eye view bounding box predictions for pedestrians in challenging cases also see a 7% improvement. Qualitatively speaking, the dynamics help with the detection of partially occluded and far-away obstacles. We illustrate this fact with numerous qualitative prediction results.
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https://hal.inria.fr/hal-03044979
Contributor : David Sierra González <>
Submitted on : Monday, December 7, 2020 - 8:22:11 PM
Last modification on : Saturday, December 12, 2020 - 12:22:46 AM

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  • HAL Id : hal-03044979, version 1

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David Sierra González, Anshul Paigwar, Özgür Erkent, Jilles Dibangoye, Christian Laugier. Leveraging Dynamic Occupancy Grids for 3D Object Detection in Point Clouds. 16th IEEE International Conference on Control, Automation, Robotics and Vision (ICARCV), Dec 2020, Shenzhen, China. ⟨hal-03044979⟩

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