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Towards personalised automated driving: Prediction of preferred ACC behaviour based on manual driving.

, , , , , and . Intelligent Vehicles Symposium, page 1211-1216. IEEE, (2016)

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Towards personalised automated driving: Prediction of preferred ACC behaviour based on manual driving., , , , , and . Intelligent Vehicles Symposium, page 1211-1216. IEEE, (2016)Procedure for the Safety Assessment of an Autonomous Vehicle Using Real-World Scenarios., and . CoRR, (2020)When Is an Automated Driving System Safe Enough for Deployment on the Public Road? Quantifying Safety Risk Using Real-World Scenarios., , and . VEHITS, page 297-304. SCITEPRESS, (2023)Towards an Ontology for Scenario Definition for the Assessment of Automated Vehicles: An Object-Oriented Framework., , , , , , , and . IEEE Trans. Intell. Veh., 7 (2): 300-314 (2022)Assessment of Automated Driving Systems using real-life scenarios., and . Intelligent Vehicles Symposium, page 589-594. IEEE, (2017)Scenario Extraction from a Large Real-World Dataset for the Assessment of Automated Vehicles., , , and . ITSC, page 1570-1575. IEEE, (2023)Scenario-based assessment of automated driving systems: How (not) to parameterize scenarios?, and . CoRR, (2024)Classification for Safety-Critical Car-Cyclist Scenarios Using Machine Learning., and . ITSC, page 1995-2000. IEEE, (2015)Tagging Real-World Scenarios for the Assessment of Autonomous Vehicles., and . CoRR, (2020)Cut-in Scenario Prediction for Automated Vehicles., , , and . ICVES, page 1-7. IEEE, (2018)