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Main Authors: Ju, Chenlu, Liu, Jiaxin, Sinha, Shobhit, Xue, Hao, Salim, Flora
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2502.18712
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author Ju, Chenlu
Liu, Jiaxin
Sinha, Shobhit
Xue, Hao
Salim, Flora
author_facet Ju, Chenlu
Liu, Jiaxin
Sinha, Shobhit
Xue, Hao
Salim, Flora
contents This work leverages Large Language Models (LLMs) to simulate human mobility, addressing challenges like high costs and privacy concerns in traditional models. Our hierarchical framework integrates persona generation, activity selection, and destination prediction, using real-world demographic and psychological data to create realistic movement patterns. Both physical models and language models are employed to explore and demonstrate different methodologies for human mobility simulation. By structuring data with summarization and weighted density metrics, the system ensures scalable memory management while retaining actionable insights. Preliminary results indicate that LLM-driven simulations align with observed real-world patterns, offering scalable, interpretable insights for social problems such as urban planning, traffic management, and public health. The framework's ability to dynamically generate personas and activities enables it to provide adaptable and realistic daily routines. This study demonstrates the transformative potential of LLMs in advancing mobility modeling for societal and urban applications. The source code and interactive demo for our framework are available at https://github.com/cju0/TrajLLM.
format Preprint
id arxiv_https___arxiv_org_abs_2502_18712
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle TrajLLM: A Modular LLM-Enhanced Agent-Based Framework for Realistic Human Trajectory Simulation
Ju, Chenlu
Liu, Jiaxin
Sinha, Shobhit
Xue, Hao
Salim, Flora
Artificial Intelligence
Social and Information Networks
This work leverages Large Language Models (LLMs) to simulate human mobility, addressing challenges like high costs and privacy concerns in traditional models. Our hierarchical framework integrates persona generation, activity selection, and destination prediction, using real-world demographic and psychological data to create realistic movement patterns. Both physical models and language models are employed to explore and demonstrate different methodologies for human mobility simulation. By structuring data with summarization and weighted density metrics, the system ensures scalable memory management while retaining actionable insights. Preliminary results indicate that LLM-driven simulations align with observed real-world patterns, offering scalable, interpretable insights for social problems such as urban planning, traffic management, and public health. The framework's ability to dynamically generate personas and activities enables it to provide adaptable and realistic daily routines. This study demonstrates the transformative potential of LLMs in advancing mobility modeling for societal and urban applications. The source code and interactive demo for our framework are available at https://github.com/cju0/TrajLLM.
title TrajLLM: A Modular LLM-Enhanced Agent-Based Framework for Realistic Human Trajectory Simulation
topic Artificial Intelligence
Social and Information Networks
url https://arxiv.org/abs/2502.18712