<p>Recommender systems have rapidly evolved and become integral to many online services. However, existing systems sometimes produce unstable and unsatisfactory recommendations that fail to align with users’ fundamental and long-term preferences. This is because they primarily focus on extracting shallow and short-term interests from user behavior data, which is inherently dynamic and challenging to model. Unlike these transient interests, user values are more stable and play a crucial role in shaping user behaviors, such as purchasing items and consuming content. Incorporating user values into recommender systems can help stabilize recommendation performance and ensure results better reflect users’ latent preferences. However, acquiring user values is typically difficult and costly. To address this challenge, we leverage the strong language understanding, zero-shot inference, and generalization capabilities of Large Language Models (LLMs) to extract user values from users’ historical interactions. Unfortunately, direct extraction using LLMs'presents two key challenges: (1) users often have extensive interaction histories, and the substantial content of each item can easily exceed LLM input length limitations, and (2) LLMs inherently suffer from hallucinations, especially when handling complex tasks. To overcome these issues, we propose ZOOM, a zero-shot multi-LLM collaborative framework for effective and accurate user value extraction. In ZOOM, we apply text summarization techniques to condense item content while preserving essential meaning. To mitigate hallucinations, ZOOM introduces two specialized agent roles: evaluators and supervisors. The evaluators generate an initial list of user values based on historical interactions, while the supervisors refine these values through a debate process, ensuring consensus and reliability. After extracting user values, we explore various fusion techniques, such as direct concatenation and contrastive learning, to incorporate these values into recommendation models. Extensive experiments on two widely used recommendation datasets with two state-of-the-art recommendation models demonstrate the effectiveness and generalization of our framework in automatic user value mining and recommendation performance improvement.</p>

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Multi-agents Based User Values Mining for Recommendation

  • Lijian Chen,
  • Wei Yuan,
  • Tong Chen,
  • Xiangyu Zhao,
  • Quoc Viet Hung Nguyen,
  • Hongzhi Yin

摘要

Recommender systems have rapidly evolved and become integral to many online services. However, existing systems sometimes produce unstable and unsatisfactory recommendations that fail to align with users’ fundamental and long-term preferences. This is because they primarily focus on extracting shallow and short-term interests from user behavior data, which is inherently dynamic and challenging to model. Unlike these transient interests, user values are more stable and play a crucial role in shaping user behaviors, such as purchasing items and consuming content. Incorporating user values into recommender systems can help stabilize recommendation performance and ensure results better reflect users’ latent preferences. However, acquiring user values is typically difficult and costly. To address this challenge, we leverage the strong language understanding, zero-shot inference, and generalization capabilities of Large Language Models (LLMs) to extract user values from users’ historical interactions. Unfortunately, direct extraction using LLMs'presents two key challenges: (1) users often have extensive interaction histories, and the substantial content of each item can easily exceed LLM input length limitations, and (2) LLMs inherently suffer from hallucinations, especially when handling complex tasks. To overcome these issues, we propose ZOOM, a zero-shot multi-LLM collaborative framework for effective and accurate user value extraction. In ZOOM, we apply text summarization techniques to condense item content while preserving essential meaning. To mitigate hallucinations, ZOOM introduces two specialized agent roles: evaluators and supervisors. The evaluators generate an initial list of user values based on historical interactions, while the supervisors refine these values through a debate process, ensuring consensus and reliability. After extracting user values, we explore various fusion techniques, such as direct concatenation and contrastive learning, to incorporate these values into recommendation models. Extensive experiments on two widely used recommendation datasets with two state-of-the-art recommendation models demonstrate the effectiveness and generalization of our framework in automatic user value mining and recommendation performance improvement.