Performance of LiDAR object detection deep learning architectures based on artificially generated point cloud data from CARLA simulator

2019 24th International Conference on Methods and Models in Automation and Robotics (MMAR) Pub Date : 2019-08-01 DOI:10.1109/MMAR.2019.8864642

Daniel Dworak, Filip Ciepiela, Jakub Derbisz, I. Izzat, M. Komorkiewicz, M. Wójcik

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引用次数: 15

Abstract

Training deep neural network algorithms for LiDAR based object detection for autonomous cars requires huge amount of labeled data. Both data collection and labeling requires a lot of effort, money and time. Therefore, the use of simulation software for virtual data generation environments is gaining wide interest from both researchers and engineers. The big question remains how well artificially generated data resembles the data gathered by real sensors and how the differences affects the final algorithms performance. The article is trying to make a quantitative answer to the above question. Selected state-of-the-art algorithms for LiDAR point cloud object detection were trained on both real and artificially generated data sets. Their performance on different test sets were evaluated. The main focus was to determinate how well artificially trained networks perform on real data and if combined train sets can achieve better results overall.

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基于CARLA模拟器人工生成的点云数据的LiDAR目标检测深度学习架构性能

训练用于自动驾驶汽车的基于激光雷达的物体检测的深度神经网络算法需要大量的标记数据。数据收集和标签都需要大量的精力、金钱和时间。因此，在虚拟数据生成环境中使用仿真软件正引起研究人员和工程师的广泛兴趣。最大的问题仍然是人工生成的数据与真实传感器收集的数据有多相似，以及这些差异如何影响最终的算法性能。本文试图对上述问题作出定量的回答。选择了最先进的激光雷达点云目标检测算法，在真实和人工生成的数据集上进行了训练。评估了它们在不同测试集上的表现。主要的重点是确定人工训练的网络在真实数据上的表现如何，以及组合的训练集是否可以获得更好的总体结果。

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2019 24th International Conference on Methods and Models in Automation and Robotics (MMAR)

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