Towards Safe Autonomous Driving: Capture Uncertainty in the Deep Neural Network For Lidar 3D Vehicle Detection

April 13, 2018 · Declared Dead · 🏛 International Conference on Intelligent Transportation Systems

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Authors Di Feng, Lars Rosenbaum, Klaus Dietmayer arXiv ID 1804.05132 Category cs.RO: Robotics Cross-listed cs.CV Citations 265 Venue International Conference on Intelligent Transportation Systems Last Checked 3 months ago

Abstract

To assure that an autonomous car is driving safely on public roads, its object detection module should not only work correctly, but show its prediction confidence as well. Previous object detectors driven by deep learning do not explicitly model uncertainties in the neural network. We tackle with this problem by presenting practical methods to capture uncertainties in a 3D vehicle detector for Lidar point clouds. The proposed probabilistic detector represents reliable epistemic uncertainty and aleatoric uncertainty in classification and localization tasks. Experimental results show that the epistemic uncertainty is related to the detection accuracy, whereas the aleatoric uncertainty is influenced by vehicle distance and occlusion. The results also show that we can improve the detection performance by 1%-5% by modeling the aleatoric uncertainty.

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