Li Sun, Zhi Yan, Sergi Molina Mellado, Marc Hanheide, and Tom Duckett
3DOF Pedestrian Trajectory Prediction Learned from Long-Term Autonomous Mobile Robot Deployment Data
to appear in IEEE International Conference on Robotics and Automation (ICRA) 2018
Abstract
This paper presents a novel 3DOF pedestrian trajectory prediction approach for autonomous mobile service robots. While most previously reported methods are based on learning of 2D positions in monocular camera images, our approach uses range-finder sensors to learn and predict 3DOF pose trajectories (i.e. 2D position plus 1D rotation within the world coordinate system). Our approach, T-Pose-LSTM (Temporal 3DOF-Pose Long-Short-Term Memory), is trained using long-term data from real-world robot deployments and aims to learn context-dependent (environment- and timespecific) human activities. Our approach incorporates long-term temporal information (i.e. date and time) with short-term pose observations as input. A sequence-to-sequence LSTM encoder-decoder is trained, which encodes observations into LSTM and then decodes the resulting predictions. On deployment, the approach can perform on-the-fly prediction in real-time. Instead of using manually annotated data, we rely on a robust human detection, tracking and SLAM system, providing us with examples in a global coordinate system. We validate the approach using more than 15 km of pedestrian trajectories recorded in a care home environment over a period of three months. The experiments show that the proposed T-Pose-LSTM model outperforms the state-of-the-art 2D-based method for human trajectory prediction in long-term mobile robot deployments.
@INPROCEEDINGS{lisun2018prediction,
title={{3DOF} Pedestrian Trajectory Prediction Learned from Long-Term Autonomous Mobile Robot Deployment Data},
author={Li Sun and Zhi Yan and Sergi Molina Mellado and Marc Hanheide and Tom Duckett},
booktitle={Proceedings of IEEE International Conference on Robotics and Automation (ICRA), Brisbane},
year={2018},
month=may,
}