多车道高速公路环境下协同驾驶的机器学习

2019 Wireless Days (WD) Pub Date : 2019-04-01 DOI:10.1109/WD.2019.8734192

Aashik Chandramohan, M. Poel, B. Meijerink, G. Heijenk

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引用次数: 6

摘要

目前，大多数自动驾驶研究都涉及到使用车辆上的车载传感器来收集周围车辆的信息，以绕过它们。在本文中，我们讨论了通过车辆网络通信的信息如何用于控制多车道公路环境中的自动驾驶车辆。使用深度Q学习(一种强化学习)设计了一种驾驶算法。为了训练和测试驾驶算法，我们部署了一个模拟交通系统，使用SUMO(模拟城市交通)。对驾驶算法的性能进行了测试，以获得对周围车辆的完全了解。此外，还研究了有限通信范围和随机丢包的影响。目前驾驶算法的性能还不理想，碰撞率很高。我们提出了进一步研究的方向，以提高算法的性能。

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Machine Learning for Cooperative Driving in a Multi-Lane Highway Environment

Most of the research in automated driving currently involves using the on-board sensors on the vehicle to collect information regarding surrounding vehicles to maneuver around them. In this paper we discuss how information communicated through vehicular networking can be used for controlling an autonomous vehicle in a multi-lane highway environment. A driving algorithm is designed using deep Q learning, a type of reinforcement learning. In order to train and test driving algorithms, we deploy a simulated traffic system, using SUMO (Simulation of Urban Mobility). The performance of the driving algorithm is tested for perfect knowledge regarding surrounding vehicles. Furthermore, the impact of limited communication range and random packet loss is investigated. Currently the performance of the driving algorithm is far from ideal with the collision ratios being quite high. We propose directions for additional research to improve the performance of the algorithm.

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2019 Wireless Days (WD)

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