Real-Time Certified Probabilistic Pedestrian Forecasting

Henry Jacobs, Owen Hughes, M. Johnson-Roberson, and Ram Vasudevan

Journal Article, IEEE Robotics and Automation Letters, Vol. 2, No. 4, pp. 2064 - 2071, October, 2017

Abstract

The success of autonomous systems will depend upon their ability to safely navigate human-centric environments. This motivates the need for a real-time, probabilistic forecasting algorithm for pedestrians, cyclists, and other agents since these predictions will form a necessary step in assessing the risk of any action. This letter presents a novel approach to probabilistic forecasting for pedestrians based on weighted sums of ordinary differential equations that are learned from historical trajectory information within a fixed scene. The resulting algorithm is embarrassingly parallel and is able to work at real-time speeds using a naive Python implementation. The quality of predicted locations of agents generated by the proposed algorithm is validated on a variety of examples and is considerably higher than existing state of the art approaches over long time horizons.

BibTeX

@article{-2017-130168,
author = {Henry Jacobs and Owen Hughes and M. Johnson-Roberson and Ram Vasudevan},
title = {Real-Time Certified Probabilistic Pedestrian Forecasting},
journal = {IEEE Robotics and Automation Letters},
year = {2017},
month = {October},
volume = {2},
number = {4},
pages = {2064 - 2071},
}

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