Target-to-track collaborative association combining a laser scanner and a camera

16th International IEEE Conference on Intelligent Transportation Systems (ITSC 2013) Pub Date : 2013-10-01 DOI:10.1109/ITSC.2013.6728383

D. Gruyer, A. Cord, R. Belaroussi

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引用次数: 5

Abstract

Advance Driver Assistance Systems designed to enhance safety require a perception module that should be reliable, robust and affordable. We propose a new cooperative fusion method between two exteroceptive sensors for the detection and tracking of obstacles. Focus is cast on the issue of data association of asynchronous measurements from multiple sensors of different nature. This perception and detection module is applied to local perception embedded on a host vehicle (the ego-vehicle) with two types of complementary sensors (laser scanner and mono-camera). The first detection stage is performed by the mono-layer laser scanner which provides a set of clustered impact points. Those clusters are filtered and projected into the image to define targets. Detected vehicles are tracked using an image registration algorithm. A multi-objects association and tracking algorithm based on belief theory is implemented to estimate the dynamic state of the tracks and to monitor appearance and disappearance of obstacles. Our approach does not make any assumption on the type of driving maneuver and is able to address highly non linear dynamic configuration. The method is applied on both real data and in simulated environment for the validation stage.

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结合激光扫描仪和相机的目标-跟踪协同关联

旨在提高安全性的高级驾驶员辅助系统需要一个可靠、强大且价格合理的感知模块。提出了一种用于障碍物检测与跟踪的双感知传感器协同融合方法。重点研究了不同性质的多传感器异步测量数据的关联问题。这种感知和检测模块被应用于嵌入有两种互补传感器(激光扫描仪和单摄像头)的宿主车辆(自我车辆)上的局部感知。第一探测阶段由提供一组群集冲击点的单层激光扫描仪执行。这些簇被过滤并投射到图像中以定义目标。使用图像配准算法跟踪检测到的车辆。实现了一种基于信念理论的多目标关联与跟踪算法，用于估计轨迹的动态状态，监测障碍物的出现和消失。我们的方法没有对驾驶机动的类型做任何假设，能够解决高度非线性的动态配置。该方法在实际数据和模拟环境中进行了验证。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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16th International IEEE Conference on Intelligent Transportation Systems (ITSC 2013)

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