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Collision Probability Field Based Interaction-Aware Longitudinal Motion Prediction

Authors
Na, YuseungLee, MinchulKang, JeonghunSunwoo, MyounghoJo, Kichun
Issue Date
Sep-2024
Publisher
Institute of Electrical and Electronics Engineers
Keywords
Collision probability field; collision risk assessment; Estimation; interaction-aware motion prediction; Mathematical models; Measurement uncertainty; measurement uncertainty; Prediction algorithms; Predictive models; Sensors; Uncertainty
Citation
IEEE Transactions on Intelligent Transportation Systems, v.25, no.9, pp 12095 - 12107
Pages
13
Indexed
SCIE
SCOPUS
Journal Title
IEEE Transactions on Intelligent Transportation Systems
Volume
25
Number
9
Start Page
12095
End Page
12107
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/195506
DOI
10.1109/TITS.2024.3379353
ISSN
1524-9050
1558-0016
Abstract
In the realm of autonomous driving, motion planning for the ego vehicle necessitates the prediction of surrounding vehicles’ motions. This prediction traditionally relies on object tracking modules containing several sensors to gauge vehicle positions and velocities. However, existing physical or maneuver-based model approaches overlook important aspects of vehicle interactions that significantly affect actual vehicle movement. Ignoring these interactions can lead to inadequate ego vehicle’s motion planning. Addressing this gap, this paper proposes a novel approach: the Collision Probability Field (CPF)-based interaction-aware longitudinal motion prediction. Our methodology uniquely integrates the CPF, derived from the uncertainty of sensing information, to account for the probabilistic state of vehicle positions and velocities. This allows the prediction algorithm to consider not just the static data, but also the dynamic interactions between vehicles such as collision. Our approach was tested in various scenarios, including lane changes with an approaching vehicle from behind and different driver behavior models in real-world conditions. Our findings demonstrate a significant improvement in prediction accuracy for the motion planning of ego vehicle, highlighting the importance of interaction-aware predictions in autonomous driving systems.
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