A Novel Approach for the Safety Validation of Emergency Intervention Functions Using Extreme Value Estimation

Malte Schrimpf, Daniel Betschinske, Steven Peters
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Abstract

As part of the safety validation of advanced driver assistance systems (ADAS) and automated driving (AD) functions, it is necessary to demonstrate that the frequency at which the system exhibits hazardous behavior (HB) in the field is below an acceptable threshold. This is typically tested by observation of the system behavior in a field operational test (FOT). For situations in which the system under test (SUT) actively intervenes in the dynamic driving behavior of the vehicle, it is assessed whether the SUT exhibits HB. Since the accepted threshold values are generally small, the amount of data required for this strategy is usually very large. This publication proposes an approach to reduce the amount of data required for the evaluation of emergency intervention systems with a state machine based intervention logic by including the time periods between intervention events in the validation process. For this purpose, a proximity measure that indicates how close the system is to an intervention at each point in time during the test drive is proposed. The application of this proximity measure and the definition of a corresponding threshold value makes it possible to expand the set of observable intervention events by events in which the system is close to an intervention. Thus, a subsequent assessment of these additional events regarding HB enables the data basis to be expanded to include events in which the system is close to exhibiting HB. This additional information is intended to be leveraged in the application of an extreme value estimator for deriving an estimate of the frequency at which the system is expected to exhibit HB on longer test distances. This publication focuses primarily on deriving and demonstrating the described proximity measure and provides an outlook on further steps required to validate the proposed approach.
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利用极值估计对紧急干预功能进行安全验证的新方法
作为高级驾驶辅助系统(ADAS)和自动驾驶(AD)功能安全验证的一部分,有必要证明系统在现场出现危险行为(HB)的频率低于可接受的阈值。这通常是通过在现场操作测试(FOT)中观察系统行为来检验的。对于被测系统(SUT)主动干预车辆动态驾驶行为的情况,要评估被测系统是否表现出危险行为。由于可接受的阈值通常较小,因此该策略所需的数据量通常非常大。本出版物提出了一种方法,通过在验证过程中加入干预事件之间的时间段,减少基于状态机干预逻辑的紧急干预系统评估所需的数据量。为此,我们提出了一种接近度测量方法,用于显示系统在试运行期间的每个时间点距离干预事件有多近。应用这种接近度测量方法并定义相应的阈值,就可以通过系统接近干预的事件来扩展可观测的干预事件集。因此,随后对这些额外事件进行的有关 HB 的评估可将数据基础扩展至包括系统接近表现出 HB 的事件。在应用极值估算器时,可以利用这些额外信息,估算出系统在较长的测试距离上表现出 HB 的频率。本出版物的主要重点是推导和演示所描述的接近度量,并对验证建议方法所需的进一步步骤进行了展望。
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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