Command Palette
Search for a command to run...
Raphaël Rozenberg Joseph Gesnouin Fabien Moutarde
Abstract
Pedestrian motion behavior involves a combination of individual goals and social interactions with other agents. In this article, we present an asymmetrical bidirectional recurrent neural network architecture called U-RNN to encode pedestrian trajectories and evaluate its relevance to replace LSTMs for various forecasting models. Experimental results on the Trajnet++ benchmark show that the U-LSTM variant yields better results regarding every available metrics (ADE, FDE, Collision rate) than common trajectory encoders for a variety of approaches and interaction modules, suggesting that the proposed approach is a viable alternative to the de facto sequence encoding RNNs. Our implementation of the asymmetrical Bi-RNNs for the Trajnet++ benchmark is available at: github.com/JosephGesnouin/Asymmetrical-Bi-RNNs-to-encode-pedestrian-trajectories
Code Repositories
Benchmarks
| Benchmark | Methodology | Metrics |
|---|---|---|
| trajectory-forecasting-on-trajnet | U-LSTM + Social Pooling | COL: 6.560 FDE: 1.150 |
| trajectory-prediction-on-trajnet | U-LSTM + Social Pooling | COL: 6.560 FDE: 1.150 |
Build AI with AI
From idea to launch — accelerate your AI development with free AI co-coding, out-of-the-box environment and best price of GPUs.