@misc{12,
  keywords = {artificial intelligence, Autonomous vehicles, game theory, human-robot interaction, hypergame theory, Nash equilibrium, occlusion, occlusion-aware risk estimation, occlusion-aware safety evaluation, occlusion-aware safety validation, strategic planners},
  author = {Maximilian Kahn},
  title = {Dynamic-Occlusion-Aware Risk Identification for Autonomous Vehicles Using Hypergames},
  abstract = {<p>A particular challenge for both autonomous and human driving is dealing with risk associated with dynamic occlusion, i.e., occlusion caused by other vehicles in traffic. Based on the theory of hypergames, we develop a novel multi-agent dynamic occlusion risk (DOR) measure for assessing situational risk in dynamic occlusion scenarios. Furthermore, we present a white-box, scenario-based, accelerated safety validation framework for assessing safety of strategic planners in AV. Based on evaluation over a large naturalistic database, our proposed validation method achieves a 4000\% speedup compared to direct validation on naturalistic data, a more diverse coverage, and ability to generalize beyond the dataset and generate commonly observed dynamic occlusion crashes in traffic in an automated manner.</p>
},
  year = {2021},
  volume = {Master of Mathematics},
  month = {12/2021},
  url = {http://hdl.handle.net/10012/17774},
}