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Research on quantum cognition in autonomous driving

Qingyuan Song, Wen Wang, Weiping Fu, Yuan Sun, Denggui Wang, Zhiqiang Gao

2022Scientific Reports26 citationsDOIOpen Access PDF

Abstract

Autonomous vehicles for the intention of human behavior of the estimated traffic participants and their interaction is the main problem in automatic driving system. Classical cognitive theory assumes that the behavior of human traffic participants is completely reasonable when studying estimation of intention and interaction. However, according to the quantum cognition and decision theory as well as practical traffic cases, human behavior including traffic behavior is often unreasonable, which violates classical cognition and decision theory. Based on the quantum cognitive theory, this paper studies the cognitive problem of pedestrian crossing. Through the case analysis, it is proved that the Quantum-like Bayesian (QLB) model can consider the reasonability of pedestrians when crossing the street compared with the classical probability model, being more consistent with the actual situation. The experiment of trajectory prediction proves that the QLB model can cover the edge events in interactive scenes compared with the data-driven Social-LSTM model, being more consistent with the real trajectory. This paper provides a new reference for the research on the cognitive problem of intention on bounded rational behavior of human traffic participants in autonomous driving.

Topics & Concepts

CognitionComputer scienceBounded rationalityTrajectoryPedestrianBounded functionCognitive modelQuantumBayesian probabilityArtificial intelligencePsychologyMathematicsTransport engineeringMathematical analysisQuantum mechanicsNeuroscienceAstronomyPhysicsEngineeringAutonomous Vehicle Technology and SafetyTime Series Analysis and ForecastingAnomaly Detection Techniques and Applications
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