Event-Based Risk Assessment for Alert Limits in Automotive Lane Keeping

2023 IEEE/ION Position, Location and Navigation Symposium (PLANS) Pub Date : 2023-04-24 DOI:10.1109/PLANS53410.2023.10140129

J. Rife, Patrick Elwood, H. Wassaf

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Abstract

This paper analyzes the integrity risk allocation for automated driving applications involving lane keeping, with an emphasis on converting a risk-per-mile specification into a risk-per-event specification. The integrity risk allocation is the basis for defining a confidence bound (or protection level) for the navigation sensor error (NSE) distribution. For the vehicle to operate safely, the protection level must not exceed the alert limit, a geometric bound that specifies the worst-case tolerable error. In this comparison, the NSE distribution describes the range of values expected from the random error at a particular instant. However, safety targets are typically quoted on a per-mile or per-hour basis. Thus, research is needed to determine the frequency per mile (or hour) of independent events that cause a loss of integrity. This paper models lane keeping in two-way traffic to estimate, for that use case, the rate of occurrence of hazardous events. We combine these models with 2019 data for a particular road segment (part of MA Route 16). For that roadway, we estimate an events/mile rate of 19 in heavy traffic, 0.27 in low traffic, with a mean of 9.5 averaged over a typical weekday.

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基于事件的汽车车道保持警戒限制风险评估

本文分析了涉及车道保持的自动驾驶应用程序的完整性风险分配，重点是将每英里风险规范转换为每事件风险规范。完整性风险分配是为导航传感器误差(NSE)分布定义置信界限(或保护等级)的基础。为了使车辆安全运行，保护级别不得超过警报限制，这是一个指定最坏情况可容忍误差的几何边界。在这种比较中，NSE分布描述了在特定时刻从随机误差中期望的值的范围。然而，安全目标通常以每英里或每小时为基础。因此，需要进行研究，以确定导致完整性丧失的独立事件每英里(或每小时)的频率。本文对双向交通中的车道保持进行建模，以估计该用例中危险事件的发生率。我们将这些模型与2019年特定路段(麻州16号公路的一部分)的数据结合起来。对于这条道路，我们估计繁忙交通中的事件/英里率为19，低交通中的事件/英里率为0.27，在典型工作日的平均值为9.5。

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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2023 IEEE/ION Position, Location and Navigation Symposium (PLANS)

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