用于大规模推荐系统的降维非定常线性匪帮

IF 2.9 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE open journal of signal processing Pub Date : 2024-04-08 DOI:10.1109/OJSP.2024.3386490
Saeed Ghoorchian;Evgenii Kortukov;Setareh Maghsudi
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引用次数: 0

摘要

利用上下文信息有可能提高推荐系统的性能。在大数据时代,这种侧面信息往往具有多个维度。因此,开发能够实时处理这种高维上下文的决策算法至关重要。特别是当决策者有各种项目需要推荐时,这就更具有挑战性。此外,由于缺乏对环境分布变化的鲁棒性,物品受欢迎程度或用户偏好的变化也会阻碍已部署的推荐系统的性能。在本文中,我们以线性情境多臂匪框架为基础来解决这一问题。我们针对具有高维特征向量、大量武器集和非稳态奖励生成过程的线性强盗问题开发了一种决策策略。我们基于汤普森采样的策略利用随机投影降低了特征向量的维度,并使用指数递增的权重来降低过去观察结果对时间的影响。我们提出的推荐系统采用这种策略来在线学习用户的项目偏好,同时最大限度地减少运行时间。我们证明了一个遗憾约束,它的规模是缩小维度的一个因子,而不是原始维度的一个因子。为了对我们提出的推荐系统进行数值评估,我们将其应用于三个真实世界的数据集。理论和数值结果表明,与最先进的算法相比,我们提出的算法能有效地在计算复杂性和遗憾性能之间做出权衡。
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Non-Stationary Linear Bandits With Dimensionality Reduction for Large-Scale Recommender Systems
Taking advantage ofcontextual information can potentially boost the performance of recommender systems. In the era of Big Data, such side information often has several dimensions. Thus, developing decision-making algorithms to cope with such a high-dimensional context in real time is essential. That is specifically challenging when the decision-maker has a variety of items to recommend. In addition, changes in items' popularity or users' preferences can hinder the performance of the deployed recommender system due to a lack of robustness to distribution shifts in the environment. In this paper, we build upon the linear contextual multi-armed bandit framework to address this problem. We develop a decision-making policy for a linear bandit problem with high-dimensional feature vectors, a large set of arms, and non-stationary reward-generating processes. Our Thompson sampling-based policy reduces the dimension of feature vectors using random projection and uses exponentially increasing weights to decrease the influence of past observations with time. Our proposed recommender system employs this policy to learn the users' item preferences online while minimizing runtime. We prove a regret bound that scales as a factor of the reduced dimension instead of the original one. To evaluate our proposed recommender system numerically, we apply it to three real-world datasets. The theoretical and numerical results demonstrate the effectiveness of our proposed algorithm in making a trade-off between computational complexity and regret performance compared to the state-of-the-art.
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CiteScore
5.30
自引率
0.00%
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审稿时长
22 weeks
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