Predicting the Time Until a Vehicle Changes the Lane Using LSTM-based Recurrent Neural Networks

To plan safe and comfortable trajectories for automated vehicles on highways, accurate predictions of traffic situations are needed. So far, a lot of research effort has been spent on detecting lane change maneuvers rather than on estimating the point in time a lane change actually happens. In pract...

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Veröffentlicht in:	arXiv.org 2021-02
Hauptverfasser:	Wirthmüller, Florian, Klimke, Marvin, Schlechtriemen, Julian, Hipp, Jochen, Reichert, Manfred
Format:	Artikel
Sprache:	eng
Schlagworte:	Computer Science - Artificial Intelligence Computer Science - Learning Computer Science - Neural and Evolutionary Computing Computer Science - Robotics Highways Lane changing Maneuvers Neural networks Recurrent neural networks Trajectory planning
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creator	Wirthmüller, Florian Klimke, Marvin Schlechtriemen, Julian Hipp, Jochen Reichert, Manfred
description	To plan safe and comfortable trajectories for automated vehicles on highways, accurate predictions of traffic situations are needed. So far, a lot of research effort has been spent on detecting lane change maneuvers rather than on estimating the point in time a lane change actually happens. In practice, however, this temporal information might be even more useful. This paper deals with the development of a system that accurately predicts the time to the next lane change of surrounding vehicles on highways using long short-term memory-based recurrent neural networks. An extensive evaluation based on a large real-world data set shows that our approach is able to make reliable predictions, even in the most challenging situations, with a root mean squared error around 0.7 seconds. Already 3.5 seconds prior to lane changes the predictions become highly accurate, showing a median error of less than 0.25 seconds. In summary, this article forms a fundamental step towards downstreamed highly accurate position predictions.
doi_str_mv	10.48550/arxiv.2102.01431
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subjects	Computer Science - Artificial Intelligence Computer Science - Learning Computer Science - Neural and Evolutionary Computing Computer Science - Robotics Highways Lane changing Maneuvers Neural networks Recurrent neural networks Trajectory planning
title	Predicting the Time Until a Vehicle Changes the Lane Using LSTM-based Recurrent Neural Networks
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