基于学习空间分布模型的汽车雷达贝叶斯扩展目标跟踪

2020 IEEE International Conference on Multisensor Fusion and Integration for Intelligent Systems (MFI) Pub Date : 2020-09-14 DOI:10.1109/MFI49285.2020.9235255

J. Honer, Hauke Kaulbersch

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引用次数: 3

摘要

我们将随机集聚类过程的概念与学习测量模型相结合，应用于扩展目标跟踪。通过变分高斯混合(VGM)模型学习目标车辆产生的测量值的空间分布。然后将VGM解释为多重伯努利(MB)分布的测量似然。利用随机集聚类过程，导出了一种用于跟踪扩展目标的封闭贝叶斯递归。该公式对于稀疏和噪声测量特别成功，并应用于汽车无线电探测和测距(RADAR)检测。最后，我们基于Nuscenes数据集中发布的数据对我们的方法进行了大规模的评估。

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Bayesian Extended Target Tracking with Automotive Radar using Learned Spatial Distribution Models

We apply the concept of random set cluster processes in combination with a learned measurement model to extended target tracking. The spatial distribution of measurements generated by a target vehicle is learned via a variational Gaussian mixture (VGM) model. The VGM is then interpreted as the measurement likelihood of a Multi-Bernoulli (MB) distribution. We derive a closed-form Bayesian recursion for tracking an extended target by the use of random set cluster process. This formulation is particularly successful for sparse and noisy measurements, and is applied to automotive Radio Detection and Ranging (RADAR) detections. Last, we provide a large-scale evaluation of our approach based on the data published in the Nuscenes data set.

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2020 IEEE International Conference on Multisensor Fusion and Integration for Intelligent Systems (MFI)

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