Model-based car tracking integrated with a road-follower

Proceedings. 1998 IEEE International Conference on Robotics and Automation (Cat. No.98CH36146) Pub Date : 1998-05-16 DOI:10.1109/ROBOT.1998.680587

F. Dellaert, D. Pomerleau, C. Thorpe

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引用次数: 47

Abstract

This paper discusses how we integrated our 3D car tracking approach with the lane following module RALPH on the Navlab autonomous vehicles, obtaining a hybrid vision system that tracks both the road and cars better than those two systems in isolation. The tracking system brings precise and crisp measurements of the car in the image, and performs image stabilization. However, because it does not know, about the yaw or lateral offset of the ego-vehicle, its curvature estimate can be misguided. RALPH takes a more global image processing approach and can provide this missing information, as well as a good estimate of curvature, so that the combined curvature estimate is superior to both taken in isolation. The additional information provided by RALPH also improves tracking performance, and allows us to estimate properties of the tracked car that were previously unobservable, in particular its in-lane displacement. Better car tracking, and a better idea of where the road is, gives us a substantial foundation on which to base other capabilities needed to realize fully autonomous vehicles.

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基于模型的汽车跟踪集成了道路跟踪器

本文讨论了我们如何将3D汽车跟踪方法与Navlab自动驾驶汽车上的车道跟踪模块RALPH集成在一起，从而获得一个混合视觉系统，该系统可以更好地跟踪道路和汽车，而不是单独跟踪这两个系统。跟踪系统带来了精确和清晰的测量图像中的汽车，并执行图像稳定。然而，由于它不知道自我飞行器的偏航或侧向偏移，它的曲率估计可能会被误导。RALPH采用了一种更全局的图像处理方法，可以提供这些缺失的信息，以及对曲率的良好估计，因此组合曲率估计优于单独使用两者。RALPH提供的附加信息也提高了跟踪性能，并使我们能够估计跟踪车辆以前无法观察到的特性，特别是其车道内位移。更好的汽车跟踪，以及更好的道路定位，为我们实现全自动驾驶汽车所需的其他功能奠定了坚实的基础。

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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Proceedings. 1998 IEEE International Conference on Robotics and Automation (Cat. No.98CH36146)

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