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Distributionally Robust Graph Out-of-Distribution Recommendation via Diffusion Model

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arxiv 2501.15555 v1 pith:R2SMIUWI submitted 2025-01-26 cs.LG cs.AIcs.GRstat.ML

Distributionally Robust Graph Out-of-Distribution Recommendation via Diffusion Model

classification cs.LG cs.AIcs.GRstat.ML
keywords modelgraphrecommendationtheoreticaldatadistributiondistributionallygeneralization
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The distributionally robust optimization (DRO)-based graph neural network methods improve recommendation systems' out-of-distribution (OOD) generalization by optimizing the model's worst-case performance. However, these studies fail to consider the impact of noisy samples in the training data, which results in diminished generalization capabilities and lower accuracy. Through experimental and theoretical analysis, this paper reveals that current DRO-based graph recommendation methods assign greater weight to noise distribution, leading to model parameter learning being dominated by it. When the model overly focuses on fitting noise samples in the training data, it may learn irrelevant or meaningless features that cannot be generalized to OOD data. To address this challenge, we design a Distributionally Robust Graph model for OOD recommendation (DRGO). Specifically, our method first employs a simple and effective diffusion paradigm to alleviate the noisy effect in the latent space. Additionally, an entropy regularization term is introduced in the DRO objective function to avoid extreme sample weights in the worst-case distribution. Finally, we provide a theoretical proof of the generalization error bound of DRGO as well as a theoretical analysis of how our approach mitigates noisy sample effects, which helps to better understand the proposed framework from a theoretical perspective. We conduct extensive experiments on four datasets to evaluate the effectiveness of our framework against three typical distribution shifts, and the results demonstrate its superiority in both independently and identically distributed distributions (IID) and OOD.

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