Litcius/Paper detail

ComOpT: Combination and Optimization for Testing Autonomous Driving Systems

Changwen Li, Chih‐Hong Cheng, Tiantian Sun, Yuhang Chen, Rongjie Yan

20222022 International Conference on Robotics and Automation (ICRA)19 citationsDOI

Abstract

ComOpT is an open-source research tool for coverage-driven testing of autonomous driving systems, focusing on planning and control. Starting with (i) a meta-model characterizing discrete conditions to be considered and (ii) constraints specifying the impossibility of certain combinations, ComOpT first generates constraint-feasible abstract scenarios while maximally increasing the coverage of k-way combinatorial testing. Each abstract scenario can be viewed as a conceptual equivalence class, which is then instantiated into multiple concrete scenarios by (1) randomly picking one local map that fulfills the specified geographical condition, and (2) assigning all actors accordingly with parameters within the range. Finally, ComOpT evaluates each concrete scenario against a set of KPIs and performs local scenario variation via spawning a new agent that might lead to a collision at designated points. We use ComOpT to test the Apollo 6 autonomous driving software stack. ComOpT can generate highly diversified scenarios with limited test budgets while uncovering problematic situations such as inabilities to make simple right turns, uncomfortable accelerations, and dangerous driving patterns. ComOpT participated in the 2021 IEEE AI Autonomous Vehicle Testing Challenge and won first place among more than 110 contending teams.

Topics & Concepts

Computer scienceScenario testingSet (abstract data type)ImpossibilityEquivalence (formal languages)Range (aeronautics)Constraint (computer-aided design)SoftwareVariety (cybernetics)Artificial intelligenceEngineeringMathematicsPolitical scienceProgramming languageAerospace engineeringLawMechanical engineeringDiscrete mathematicsSoftware Testing and Debugging TechniquesFormal Methods in VerificationSafety Systems Engineering in Autonomy