推荐系统扩散模型概览

Jianghao Lin, Jiaqi Liu, Jiachen Zhu, Yunjia Xi, Chengkai Liu, Yangtian Zhang, Yong Yu, Weinan Zhang
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引用次数: 0

摘要

虽然传统的推荐技术在过去几十年里取得了长足的进步,但它们仍然受到诸如协作信号不足、潜在代表性弱和数据嘈杂等因素的影响,泛化性能有限。对此,扩散模型(DMs)因其强大的生成能力、坚实的理论基础和更高的训练稳定性,已成为推荐系统的理想解决方案。为此,我们在本文中首次对用于推荐的扩散模型进行了全面调查,并从现实世界推荐系统中整个管道的角度进行了鸟瞰。我们将现有的研究工作系统地归纳为三个主要领域:(1)数据工程与编码的扩散,侧重于数据增强和表示增强;(2)作为推荐模型的扩散,利用扩散模型直接估计用户偏好并对项目进行排序;以及(3)内容展示的扩散,利用扩散模型生成个性化内容,如时尚和广告创意。我们的分类法突出了扩散模型在捕捉复杂数据分布和生成与用户偏好密切相关的高质量、多样化样本方面的独特优势。我们还总结了适用于推荐的扩散模型的核心特征,并进一步确定了未来探索的关键领域,这有助于为寻求通过创新应用扩散模型来推动推荐系统发展的研究人员和从业人员制定路线图。为了进一步促进基于扩散模型的推荐系统研究界的发展,我们积极维护了一个 GitHub 存储库,用于存放这一新兴方向的论文和其他相关资源https://github.com/CHIANGEL/Awesome-Diffusion-for-RecSys。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Survey on Diffusion Models for Recommender Systems
While traditional recommendation techniques have made significant strides in the past decades, they still suffer from limited generalization performance caused by factors like inadequate collaborative signals, weak latent representations, and noisy data. In response, diffusion models (DMs) have emerged as promising solutions for recommender systems due to their robust generative capabilities, solid theoretical foundations, and improved training stability. To this end, in this paper, we present the first comprehensive survey on diffusion models for recommendation, and draw a bird's-eye view from the perspective of the whole pipeline in real-world recommender systems. We systematically categorize existing research works into three primary domains: (1) diffusion for data engineering & encoding, focusing on data augmentation and representation enhancement; (2) diffusion as recommender models, employing diffusion models to directly estimate user preferences and rank items; and (3) diffusion for content presentation, utilizing diffusion models to generate personalized content such as fashion and advertisement creatives. Our taxonomy highlights the unique strengths of diffusion models in capturing complex data distributions and generating high-quality, diverse samples that closely align with user preferences. We also summarize the core characteristics of the adapting diffusion models for recommendation, and further identify key areas for future exploration, which helps establish a roadmap for researchers and practitioners seeking to advance recommender systems through the innovative application of diffusion models. To further facilitate the research community of recommender systems based on diffusion models, we actively maintain a GitHub repository for papers and other related resources in this rising direction https://github.com/CHIANGEL/Awesome-Diffusion-for-RecSys.
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