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SimAug: Learning Robust Representations from Simulation for Trajectory Prediction

https://doi.org/0.1007/978-3-030-58601-0_17

Liang, Junwei ; Jiang, Lu ; Hauptmann, Alexander ( November 2020 , Computer Vision – ECCV 2020)
Vedaldi, Andrea ; Bischof, Horst ; Brox, Thomas ; Frahm, Jan-Michael (Ed.)
This paper focuses on the problem of predicting future trajectories of people in unseen scenarios and camera views. We propose a method to efficiently utilize multi-view 3D simulation data for training. Our approach finds the hardest camera view to mix up with adversarial data from the original camera view in training, thus enabling the model to learn robust representations that can generalize to unseen camera views. We refer to our method as SimAug. We show that SimAug achieves best results on three out-of-domain real-world benchmarks, as well as getting state-of-the-art in the Stanford Drone and the VIRAT/ActEV dataset with in-domain training data. We will release our models and code.
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The Garden of Forking Paths: Towards Multi-Future Trajectory Prediction

https://doi.org/10.1109/CVPR42600.2020.01052

Liang, Junwei ; Jiang, Lu ; Murphy, Kevin ; Yu, Ting ; Hauptmann, Alexander ( June 2020 , 2020 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR))
null (Ed.)
This paper studies the problem of predicting the distribution over multiple possible future paths of people as they move through various visual scenes. We make two main contributions. The first contribution is a new dataset, created in a realistic 3D simulator, which is based on real world trajectory data, and then extrapolated by human annotators to achieve different latent goals. This provides the first benchmark for quantitative evaluation of the models to predict multi-future trajectories. The second contribution is a new model to generate multiple plausible future trajectories, which contains novel designs of using multi-scale location encodings and convolutional RNNs over graphs. We refer to our model as Multiverse. We show that our model achieves the best results on our dataset, as well as on the real-world VIRAT/ActEV dataset (which just contains one possible future).
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Simple to complex cross-modal learning to rank

https://doi.org/10.1016/j.cviu.2017.07.001

Luo, Minnan ; Chang, Xiaojun ; Li, Zhihui ; Nie, Liqiang ; Hauptmann, Alexander G. ; Zheng, Qinghua ( July 2017 , Computer Vision and Image Understanding)

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