车辆前方的实时距离估计和滤波，以平滑交通波

Proceedings of the 10th ACM/IEEE International Conference on Cyber-Physical Systems Pub Date : 2019-04-16 DOI:10.1145/3302509.3314026

R. Bhadani, Matt Bunting, Benjamin Seibold, Raphael E. Stern, Shumo Cui, J. Sprinkle, B. Piccoli, D. Work

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引用次数: 6

摘要

在本文中，我们描述了一个经验报告和现场部署的实时滤波算法，用于机器人车辆平滑紧急交通波。当在仿真中平滑这些波时，一种常见的方法是实现利用平滑地面真值信息的空间间隙、相对速度甚至加速度的控制器，而不是来自现实数据。因此，当考虑到受控车辆的动力学和激光数据的离散性及其周期性到达时，许多结果的影响可能会受到限制。我们的方法讨论了估计精度的权衡，以提供距离和速度估计，并使用机器人汽车进行了真实的硬件在环测试。这项工作的贡献使21辆车的实验成为可能，包括机器人汽车在过滤估计后以高达8.0 m/s的速度关闭环路，强调了在实验中能够以可接受的精度提供实时结果的算法对驾驶员安全的重要性。

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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Real-time distance estimation and filtering of vehicle headways for smoothing of traffic waves

In this paper we describe an experience report and field deployment of real-time filtering algorithms used with a robotic vehicle to smooth emergent traffic waves. When smoothing these waves in simulation, a common approach is to implement controllers that utilize space gap, relative velocity and even acceleration from smooth ground truth information, rather than from realistic data. As a result, many results may be limited in their impact when considering the dynamics of the vehicle under control and the discretized nature of the laser data as well as its periodic arrival. Our approach discusses trade-offs in estimation accuracy to provide both distance and velocity estimates, with ground-truth hardware-in-the-loop tests with a robotic car. The contribution of the work enabled an experiment with 21 vehicles, including the robotic car closing the loop at up to 8.0 m/s with the filtered estimates, stressing the importance of an algorithm that can deliver real-time results with acceptable accuracy for the safety of the drivers in the experiment.

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Proceedings of the 10th ACM/IEEE International Conference on Cyber-Physical Systems

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