Abstract
Due to the rapid progress in the development of automated vehicles over the last decade, their market entry is getting closer. One of the remaining challenges is the safety assessment and type approval of automated vehicles, as conventional testing in the real world would involve an unmanageable mileage. Scenario-based testing using simulation is a promising candidate for overcoming this approval trap. Although the research community has recognized the importance of safeguarding in recent years, the quality of simulation models is rarely taken into account. Without investigating the errors and uncertainties of models, virtual statements about vehicle safety are meaningless. This paper describes a whole process combining model validation and safety assessment. It is demonstrated by means of an actual type-approval regulation that deals with the safety assessment of lane-keeping systems. Based on a thorough analysis of the current state-of-the-art, this paper introduces two approaches for selecting test scenarios. While the model validation scenarios are planned from scratch and focus on scenario coverage, the type-approval scenarios are extracted from measurement data based on a data-driven pipeline. The deviations between lane-keeping behavior in the real and virtual world are quantified using a statistical validation metric. They are then modeled using a regression technique and inferred from the validation experiments to the unseen virtual type-approval scenarios. Finally, this paper examines safety-critical lane crossings, taking into account the modeling errors. It demonstrates the potential of the virtual-based safeguarding process using exemplary simulations and real driving tests.
Highlights
Automated driving is a major trend in the automotive industry as it promises to increase road safety and driver comfort
Advanced Driver Assistance Systems (ADAS) (Level 1 according to SAE [2]) such as emergency braking or lane-keeping assists are common in modern vehicles and will be mandatory in Europe beginning in 2022 [3]
The United Nations Economic Commission for Europe (UNECE) is developing type-approval regulations to ensure that these systems meet important safety requirements before they are released to the market [4,5]
Summary
Automated driving is a major trend in the automotive industry as it promises to increase road safety and driver comfort. National governments are striving to increase the level of vehicle automation to reduce these figures. Advanced Driver Assistance Systems (ADAS) (Level 1 according to SAE [2]) such as emergency braking or lane-keeping assists are common in modern vehicles and will be mandatory in Europe beginning in 2022 [3]. Car manufacturers have a high responsibility to dedicate a significant part of the development process to the safety assessment of those systems. The United Nations Economic Commission for Europe (UNECE) is developing type-approval regulations to ensure that these systems meet important safety requirements before they are released to the market [4,5]
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