MobilityGPT: Enhanced Human Mobility Modeling with a GPT model
- URL: http://arxiv.org/abs/2402.03264v2
- Date: Thu, 23 May 2024 17:55:54 GMT
- Title: MobilityGPT: Enhanced Human Mobility Modeling with a GPT model
- Authors: Ammar Haydari, Dongjie Chen, Zhengfeng Lai, Michael Zhang, Chen-Nee Chuah,
- Abstract summary: We reformat human mobility modeling as an autoregressive generation task to address these issues.
We propose a geospatially-aware generative model, MobilityGPT, to ensure its controllable generation.
Experiments on real-world datasets demonstrate MobilityGPT's superior performance over state-of-the-art methods.
- Score: 12.01839817432357
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: Generative models have shown promising results in capturing human mobility characteristics and generating synthetic trajectories. However, it remains challenging to ensure that the generated geospatial mobility data is semantically realistic, including consistent location sequences, and reflects real-world characteristics, such as constraining on geospatial limits. We reformat human mobility modeling as an autoregressive generation task to address these issues, leveraging the Generative Pre-trained Transformer (GPT) architecture. To ensure its controllable generation to alleviate the above challenges, we propose a geospatially-aware generative model, MobilityGPT. We propose a gravity-based sampling method to train a transformer for semantic sequence similarity. Then, we constrained the training process via a road connectivity matrix that provides the connectivity of sequences in trajectory generation, thereby keeping generated trajectories in geospatial limits. Lastly, we proposed to construct a preference dataset for fine-tuning MobilityGPT via Reinforcement Learning from Trajectory Feedback (RLTF) mechanism, which minimizes the travel distance between training and the synthetically generated trajectories. Experiments on real-world datasets demonstrate MobilityGPT's superior performance over state-of-the-art methods in generating high-quality mobility trajectories that are closest to real data in terms of origin-destination similarity, trip length, travel radius, link, and gravity distributions.
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