论文信息 - Safety Verification Of ADAS By Collision-free Boundary Searching Of A Parameterized Catalog

Safety Verification Of ADAS By Collision-free Boundary Searching Of A Parameterized Catalog

Safety evaluation and verification are challenging for the development of the Advanced Driver Assistance Systems(ADAS) or Automated Driving Functions(ADF). Real world road testing requires an unaffordable testing time. Therefore, simulations are included so that ADAS/ADF are tested and verified in a virtual environment. In the previous work, a test-case catalog has been introduced to limit the total number of test cases. Realistic parameterization of test-cases based on experimental data allows safety assessment through the estimation of unsafe conditions (e.g. collision rate) in terms of the real world traffic situation, by looking for the safety boundary, separating safe conditions from unsafe. Due to the high dimensionality of complex test cases, a rigorous grid searching is highly time consuming. Against this background, we propose an improved Input Design method based on Gaussian Process Classification algorithm to handle the safety boundary searching problem. This method allows an efficient identification of non-convex boundaries. It guarantees a good approximation of the true boundary based on limited number of simulations (or measurements).

Luigi del Re | Jinwei Zhou | L. D. Re | Jinwei Zhou

[1] O Schädler,et al. Experimental evaluation of the controllability of interacting advanced driver assistance systems , 2016 .

[2] Falko Saust,et al. Effiziente systematische Testgenerierung für Fahrerassistenzsysteme in virtuellen Umgebungen , 2013 .

[3] Oliver Nelles,et al. Support Vector Machines for Design Space Exploration , 2012 .

[4] Ilya V. Kolmanovsky,et al. A game theoretical model of traffic with multiple interacting drivers for use in autonomous vehicle development , 2016, 2016 American Control Conference (ACC).

[5] Hiroyuki Oyama,et al. Identification of Static Boundary Model Based on Gaussian Process Classification , 2016 .

[6] Carl E. Rasmussen,et al. Gaussian processes for machine learning , 2005, Adaptive computation and machine learning.

[7] Luigi del Re,et al. Identification of critical cases of ADAS safety by FOT based parameterization of a catalogue , 2017, 2017 11th Asian Control Conference (ASCC).

[8] Luigi del Re,et al. Reduced Complexity Safety Testing for ADAS & ADF , 2017 .

[9] Paulo Tabuada,et al. Closed-form controlled invariant sets for pedestrian avoidance , 2017, 2017 American Control Conference (ACC).

[10] Hermann Winner. Safe Driving Despite Uncertainties , 2013 .