Multi-Agent Collaborative Reasoning with Tool-Augmented Evidence for Urban Region Profiling

Researchers have introduced UrbanAgent, a novel agentic framework that revolutionizes urban region profiling. By leveraging multi-agent collaborative reasoning and tool-augmented external knowledge retrieval, UrbanAgent outperforms traditional models in estimating population, GDP, and carbon emissions.
Computer Science > Artificial Intelligence
Title:Multi-Agent Collaborative Reasoning with Tool-Augmented Evidence for Urban Region Profiling
View PDF HTML (experimental)Abstract:Urban region profiling constitutes a core problem in urban computing, supporting applications such as population estimation, economic assessment, and environmental monitoring. Existing methods typically formulate this task as multimodal representation learning, fusing heterogeneous urban data, e.g., satellite imagery, points of interest, textual descriptions, and 3D building information, into latent embeddings for prediction. However, these approaches are largely correlation-driven, assume cross-modal consistency, and rely on static pipelines, which limit their robustness in heterogeneous or unseen urban regions. We propose UrbanAgent, an agentic framework that reframes urban region profiling as a reasoning-driven inference problem. UrbanAgent instantiates an independent agent for each data modality and performs structured multi-agent collaborative reasoning to explicitly address cross-modal inconsistencies rather than absorbing them into a single representation. In addition, UrbanAgent extends indicator prediction as a closed-loop process of active evidence acquisition and iterative reasoning, enabling agents to verify uncertain inferences through tool-augmented retrieval of external knowledge optimized via reinforcement learning. Extensive experiments on global urban datasets for Carbon emissions, GDP, and Population estimation show that UrbanAgent consistently outperforms existing baselines, achieving an average improvement of 8.1% in R2, and exhibiting strong generalization performance in unseen-city settings.
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Source: arXiv cs.AI Recent














