Related papers: The Importance of Prior Knowledge in Precise Multimodal Prediction

The Importance of Prior Knowledge in Precise Multimodal Prediction

URL: http://arxiv.org/abs/2006.02636v1
Date: Thu, 4 Jun 2020 03:56:11 GMT
Title: The Importance of Prior Knowledge in Precise Multimodal Prediction
Authors: Sergio Casas, Cole Gulino, Simon Suo, Raquel Urtasun
Abstract summary: Roads have well defined geometries, topologies, and traffic rules. In this paper we propose to incorporate structured priors as a loss function. We demonstrate the effectiveness of our approach on real-world self-driving datasets.
Score: 71.74884391209955
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Roads have well defined geometries, topologies, and traffic rules. While this has been widely exploited in motion planning methods to produce maneuvers that obey the law, little work has been devoted to utilize these priors in perception and motion forecasting methods. In this paper we propose to incorporate these structured priors as a loss function. In contrast to imposing hard constraints, this approach allows the model to handle non-compliant maneuvers when those happen in the real world. Safe motion planning is the end goal, and thus a probabilistic characterization of the possible future developments of the scene is key to choose the plan with the lowest expected cost. Towards this goal, we design a framework that leverages REINFORCE to incorporate non-differentiable priors over sample trajectories from a probabilistic model, thus optimizing the whole distribution. We demonstrate the effectiveness of our approach on real-world self-driving datasets containing complex road topologies and multi-agent interactions. Our motion forecasts not only exhibit better precision and map understanding, but most importantly result in safer motion plans taken by our self-driving vehicle. We emphasize that despite the importance of this evaluation, it has been often overlooked by previous perception and motion forecasting works.

Related papers

KI-PMF: Knowledge Integrated Plausible Motion Forecasting [11.311561045938546]
Current trajectory forecasting approaches primarily concentrate on optimizing a loss function with a specific metric. Our objective is to incorporate explicit knowledge priors that allow a network to forecast future trajectories in compliance with both the kinematic constraints of a vehicle. Our proposed method is designed to ensure reachability guarantees for traffic actors in both complex and dynamic situations.
arXiv Detail & Related papers (2023-10-18T14:40:52Z)
Implicit Occupancy Flow Fields for Perception and Prediction in Self-Driving [68.95178518732965]
A self-driving vehicle (SDV) must be able to perceive its surroundings and predict the future behavior of other traffic participants. Existing works either perform object detection followed by trajectory of the detected objects, or predict dense occupancy and flow grids for the whole scene. This motivates our unified approach to perception and future prediction that implicitly represents occupancy and flow over time with a single neural network.
arXiv Detail & Related papers (2023-08-02T23:39:24Z)
TAE: A Semi-supervised Controllable Behavior-aware Trajectory Generator and Predictor [3.6955256596550137]
Trajectory generation and prediction play important roles in planner evaluation and decision making for intelligent vehicles. We propose a behavior-aware Trajectory Autoencoder (TAE) that explicitly models drivers' behavior. Our model addresses trajectory generation and prediction in a unified architecture and benefits both tasks.
arXiv Detail & Related papers (2022-03-02T17:37:44Z)
Self-Supervised Action-Space Prediction for Automated Driving [0.0]
We present a novel learned multi-modal trajectory prediction architecture for automated driving. It achieves kinematically feasible predictions by casting the learning problem into the space of accelerations and steering angles. The proposed methods are evaluated on real-world datasets containing urban intersections and roundabouts.
arXiv Detail & Related papers (2021-09-21T08:27:56Z)
LOKI: Long Term and Key Intentions for Trajectory Prediction [22.097307597204736]
Recent advances in trajectory prediction have shown that explicit reasoning about agents' intent is important to accurately forecast their motion. We propose LOKI (LOng term and Key Intentions), a novel large-scale dataset that is designed to tackle joint trajectory and intention prediction. We show our method outperforms state-of-the-art trajectory prediction methods by upto $27%$ and also provide a baseline for frame-wise intention estimation.
arXiv Detail & Related papers (2021-08-18T16:57:03Z)
Deep Structured Reactive Planning [94.92994828905984]
We propose a novel data-driven, reactive planning objective for self-driving vehicles. We show that our model outperforms a non-reactive variant in successfully completing highly complex maneuvers.
arXiv Detail & Related papers (2021-01-18T01:43:36Z)
Perceive, Predict, and Plan: Safe Motion Planning Through Interpretable Semantic Representations [81.05412704590707]
We propose a novel end-to-end learnable network that performs joint perception, prediction and motion planning for self-driving vehicles. Our network is learned end-to-end from human demonstrations.
arXiv Detail & Related papers (2020-08-13T14:40:46Z)
TPNet: Trajectory Proposal Network for Motion Prediction [81.28716372763128]
Trajectory Proposal Network (TPNet) is a novel two-stage motion prediction framework. TPNet first generates a candidate set of future trajectories as hypothesis proposals, then makes the final predictions by classifying and refining the proposals. Experiments on four large-scale trajectory prediction datasets, show that TPNet achieves the state-of-the-art results both quantitatively and qualitatively.
arXiv Detail & Related papers (2020-04-26T00:01:49Z)
PiP: Planning-informed Trajectory Prediction for Autonomous Driving [69.41885900996589]
We propose planning-informed trajectory prediction (PiP) to tackle the prediction problem in the multi-agent setting. By informing the prediction process with the planning of ego vehicle, our method achieves the state-of-the-art performance of multi-agent forecasting on highway datasets.
arXiv Detail & Related papers (2020-03-25T16:09:54Z)

This list is automatically generated from the titles and abstracts of the papers in this site.