This paper is the first to provide a thorough system design overview along with the fusion methods selection criteria of a real-world cooperative autonomous driving system, named Infrastructure-Augmented Autonomous Driving or IAAD. We present an in-depth introduction of the IAAD hardware and software on both road-side and vehicle-side computing and communication platforms. We extensively characterize the IAAD system in the context of real-world deployment scenarios and observe that the network condition that fluctuates along the road is currently the main technical roadblock for cooperative autonomous driving. To address this challenge, we propose new fusion methods, dubbed "inter-frame fusion" and "planning fusion" to complement the current state-of-the-art "intra-frame fusion". We demonstrate that each fusion method has its own benefit and constraint.
翻译:本文是第一个提供全面系统设计概览以及称为基础设施增强自主驾驶或自动驾驶的 " 实际世界合作自主驾驶系统 " 的集成方法选择标准的文件。 我们在路边和车辆边计算和通信平台上深入介绍了国际宇航科学院硬件和软件。我们在现实世界部署设想中广泛描述国际宇航科学院系统,并注意到公路上波动的网络条件目前是合作自主驾驶的主要技术障碍。为了应对这一挑战,我们提出了称为 " 跨框架集成 " 和 " 规划集成 " 的新的集成方法,以补充目前最先进的 " 内部集成 " 。我们证明每一种集成方法都有其自身的好处和限制。
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