Related papers: MoToRec: Sparse-Regularized Multimodal Tokenization for Cold-Start Recommendation

MoToRec: Sparse-Regularized Multimodal Tokenization for Cold-Start Recommendation

URL: http://arxiv.org/abs/2602.11062v1
Date: Wed, 11 Feb 2026 17:31:14 GMT
Title: MoToRec: Sparse-Regularized Multimodal Tokenization for Cold-Start Recommendation
Authors: Jialin Liu, Zhaorui Zhang, Ray C. C. Cheung,
Abstract summary: We present Sparse-Regularized Multimodal Tokenization for Cold-Start Recommendation (MoToRec)<n>MoToRec is a framework centered on a sparsely-regularized Residual Quantized Variational Autoencoder (RQ-VAE) that generates a compositional semantic code of discrete, interpretable tokens.<n>Extensive experiments on three large-scale datasets demonstrate MoToRec's superiority over state-of-the-art methods in both overall and cold-start scenarios.
Score: 6.78317230214304
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Graph neural networks (GNNs) have revolutionized recommender systems by effectively modeling complex user-item interactions, yet data sparsity and the item cold-start problem significantly impair performance, particularly for new items with limited or no interaction history. While multimodal content offers a promising solution, existing methods result in suboptimal representations for new items due to noise and entanglement in sparse data. To address this, we transform multimodal recommendation into discrete semantic tokenization. We present Sparse-Regularized Multimodal Tokenization for Cold-Start Recommendation (MoToRec), a framework centered on a sparsely-regularized Residual Quantized Variational Autoencoder (RQ-VAE) that generates a compositional semantic code of discrete, interpretable tokens, promoting disentangled representations. MoToRec's architecture is enhanced by three synergistic components: (1) a sparsely-regularized RQ-VAE that promotes disentangled representations, (2) a novel adaptive rarity amplification that promotes prioritized learning for cold-start items, and (3) a hierarchical multi-source graph encoder for robust signal fusion with collaborative signals. Extensive experiments on three large-scale datasets demonstrate MoToRec's superiority over state-of-the-art methods in both overall and cold-start scenarios. Our work validates that discrete tokenization provides an effective and scalable alternative for mitigating the long-standing cold-start challenge.

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