Learning Group Interactions and Semantic Intentions for Multi-Object Trajectory Prediction
Effective modeling of group interactions and dynamic semantic intentions is crucial for forecasting behaviors like trajectories or movements. In complex scenarios like sports, agents' trajectories are influenced by group interactions and intentions, including team strategies and opponent action...
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| creator | Qi, Mengshi Yang, Yuxin Ma, Huadong |
| description | Effective modeling of group interactions and dynamic semantic intentions is
crucial for forecasting behaviors like trajectories or movements. In complex
scenarios like sports, agents' trajectories are influenced by group
interactions and intentions, including team strategies and opponent actions. To
this end, we propose a novel diffusion-based trajectory prediction framework
that integrates group-level interactions into a conditional diffusion model,
enabling the generation of diverse trajectories aligned with specific group
activity. To capture dynamic semantic intentions, we frame group interaction
prediction as a cooperative game, using Banzhaf interaction to model
cooperation trends. We then fuse semantic intentions with enhanced agent
embeddings, which are refined through both global and local aggregation.
Furthermore, we expand the NBA SportVU dataset by adding human annotations of
team-level tactics for trajectory and tactic prediction tasks. Extensive
experiments on three widely-adopted datasets demonstrate that our model
outperforms state-of-the-art methods. Our source code and data are available at
https://github.com/aurora-xin/Group2Int-trajectory. |
| doi_str_mv | 10.48550/arxiv.2412.15673 |
| format | Article |
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crucial for forecasting behaviors like trajectories or movements. In complex
scenarios like sports, agents' trajectories are influenced by group
interactions and intentions, including team strategies and opponent actions. To
this end, we propose a novel diffusion-based trajectory prediction framework
that integrates group-level interactions into a conditional diffusion model,
enabling the generation of diverse trajectories aligned with specific group
activity. To capture dynamic semantic intentions, we frame group interaction
prediction as a cooperative game, using Banzhaf interaction to model
cooperation trends. We then fuse semantic intentions with enhanced agent
embeddings, which are refined through both global and local aggregation.
Furthermore, we expand the NBA SportVU dataset by adding human annotations of
team-level tactics for trajectory and tactic prediction tasks. Extensive
experiments on three widely-adopted datasets demonstrate that our model
outperforms state-of-the-art methods. Our source code and data are available at
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crucial for forecasting behaviors like trajectories or movements. In complex
scenarios like sports, agents' trajectories are influenced by group
interactions and intentions, including team strategies and opponent actions. To
this end, we propose a novel diffusion-based trajectory prediction framework
that integrates group-level interactions into a conditional diffusion model,
enabling the generation of diverse trajectories aligned with specific group
activity. To capture dynamic semantic intentions, we frame group interaction
prediction as a cooperative game, using Banzhaf interaction to model
cooperation trends. We then fuse semantic intentions with enhanced agent
embeddings, which are refined through both global and local aggregation.
Furthermore, we expand the NBA SportVU dataset by adding human annotations of
team-level tactics for trajectory and tactic prediction tasks. Extensive
experiments on three widely-adopted datasets demonstrate that our model
outperforms state-of-the-art methods. Our source code and data are available at
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crucial for forecasting behaviors like trajectories or movements. In complex
scenarios like sports, agents' trajectories are influenced by group
interactions and intentions, including team strategies and opponent actions. To
this end, we propose a novel diffusion-based trajectory prediction framework
that integrates group-level interactions into a conditional diffusion model,
enabling the generation of diverse trajectories aligned with specific group
activity. To capture dynamic semantic intentions, we frame group interaction
prediction as a cooperative game, using Banzhaf interaction to model
cooperation trends. We then fuse semantic intentions with enhanced agent
embeddings, which are refined through both global and local aggregation.
Furthermore, we expand the NBA SportVU dataset by adding human annotations of
team-level tactics for trajectory and tactic prediction tasks. Extensive
experiments on three widely-adopted datasets demonstrate that our model
outperforms state-of-the-art methods. Our source code and data are available at
https://github.com/aurora-xin/Group2Int-trajectory.</abstract><doi>10.48550/arxiv.2412.15673</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Computer Science - Computer Vision and Pattern Recognition |
| title | Learning Group Interactions and Semantic Intentions for Multi-Object Trajectory Prediction |
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