Stewart Worrall scite author profile

Understanding the intentions of drivers at intersections is a critical component for autonomous vehicles. Urban intersections that do not have traffic signals are a common epicentre of highly variable vehicle movement and interactions. We present a method for predicting driver intent at urban intersections through multi-modal trajectory prediction with uncertainty. Our method is based on recurrent neural networks combined with a mixture density network output layer. To consolidate the multi-modal nature of the output probability distribution, we introduce a clustering algorithm that extracts the set of possible paths that exist in the prediction output, and ranks them according to likelihood. To verify the method's performance and generalizability, we present a real-world dataset that consists of over 23,000 vehicles traversing five different intersections, collected using a vehicle mounted Lidar based tracking system. An array of metrics is used to demonstrate the performance of the model against several baselines.

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Long short term memory for driver intent prediction

Zyner

Worrall

Ward

et al. 2017

132

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A Recurrent Neural Network Solution for Predicting Driver Intention at Unsignalized Intersections

Zyner

Worrall

Nebot

2018

IEEE Robot. Autom. Lett.

144

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Stewart Worrall

Naturalistic Driver Intention and Path Prediction Using Recurrent Neural Networks

Long short term memory for driver intent prediction

A Recurrent Neural Network Solution for Predicting Driver Intention at Unsignalized Intersections

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