Related papers: EasyRec: Simple yet Effective Language Models for Recommendation

EasyRec: Simple yet Effective Language Models for Recommendation

URL: http://arxiv.org/abs/2408.08821v3
Date: Fri, 18 Oct 2024 17:50:57 GMT
Title: EasyRec: Simple yet Effective Language Models for Recommendation
Authors: Xubin Ren, Chao Huang,
Abstract summary: EasyRec is an effective and easy-to-use approach that seamlessly integrates text-based semantic understanding with collaborative signals. EasyRec employs a text-behavior alignment framework, which combines contrastive learning with collaborative language model tuning. The study highlights the potential of seamlessly integrating EasyRec as a plug-and-play component into text-enhanced collaborative filtering frameworks.
Score: 6.311058599430178
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Deep neural networks have become a powerful technique for learning representations from user-item interaction data in collaborative filtering (CF) for recommender systems. However, many existing methods heavily rely on unique user and item IDs, which limits their ability to perform well in practical zero-shot learning scenarios where sufficient training data may be unavailable. Inspired by the success of language models (LMs) and their strong generalization capabilities, a crucial question arises: How can we harness the potential of language models to empower recommender systems and elevate its generalization capabilities to new heights? In this study, we propose EasyRec - an effective and easy-to-use approach that seamlessly integrates text-based semantic understanding with collaborative signals. EasyRec employs a text-behavior alignment framework, which combines contrastive learning with collaborative language model tuning, to ensure a strong alignment between the text-enhanced semantic space and the collaborative behavior information. Extensive empirical evaluations across diverse real-world datasets demonstrate the superior performance of EasyRec compared to state-of-the-art alternative models, particularly in the challenging text-based zero-shot recommendation scenarios. Furthermore, the study highlights the potential of seamlessly integrating EasyRec as a plug-and-play component into text-enhanced collaborative filtering frameworks, thereby empowering existing recommender systems to elevate their recommendation performance and adapt to the evolving user preferences in dynamic environments. For better result reproducibility of our EasyRec framework, the model implementation details, source code, and datasets are available at the link: https://github.com/HKUDS/EasyRec.

Related papers

Beyond Retrieval: Generating Narratives in Conversational Recommender Systems [4.912663905306209]
We introduce a new dataset (REGEN) for natural language generation tasks in conversational recommendations. We establish benchmarks using well-known generative metrics, and perform an automated evaluation of the new dataset using a rater LLM. And to the best of our knowledge, represents the first attempt to analyze the capabilities of LLMs in understanding recommender signals and generating rich narratives.
arXiv Detail & Related papers (2024-10-22T07:53:41Z)
Flex: End-to-End Text-Instructed Visual Navigation with Foundation Models [59.892436892964376]
We investigate the minimal data requirements and architectural adaptations necessary to achieve robust closed-loop performance with vision-based control policies. Our findings are synthesized in Flex (Fly-lexically), a framework that uses pre-trained Vision Language Models (VLMs) as frozen patch-wise feature extractors. We demonstrate the effectiveness of this approach on quadrotor fly-to-target tasks, where agents trained via behavior cloning successfully generalize to real-world scenes.
arXiv Detail & Related papers (2024-10-16T19:59:31Z)
FLARE: Fusing Language Models and Collaborative Architectures for Recommender Enhancement [0.7372033475418547]
Flare is a novel hybrid recommender that integrates a language model (mT5) with a collaborative filtering model (Bert4Rec) using a Perceiver network. We conduct a two-stage evaluation, first assessing Flare's performance against established baselines on smaller datasets. We then evaluate Flare on a larger, more realistic dataset with a significantly larger item vocabulary.
arXiv Detail & Related papers (2024-09-18T04:43:41Z)
Language Representations Can be What Recommenders Need: Findings and Potentials [57.90679739598295]
We show that item representations, when linearly mapped from advanced LM representations, yield superior recommendation performance. This outcome suggests the possible homomorphism between the advanced language representation space and an effective item representation space for recommendation. Our findings highlight the connection between language modeling and behavior modeling, which can inspire both natural language processing and recommender system communities.
arXiv Detail & Related papers (2024-07-07T17:05:24Z)
Text-Video Retrieval with Global-Local Semantic Consistent Learning [122.15339128463715]
We propose a simple yet effective method, Global-Local Semantic Consistent Learning (GLSCL) GLSCL capitalizes on latent shared semantics across modalities for text-video retrieval. Our method achieves comparable performance with SOTA as well as being nearly 220 times faster in terms of computational cost.
arXiv Detail & Related papers (2024-05-21T11:59:36Z)
CELA: Cost-Efficient Language Model Alignment for CTR Prediction [71.85120354973073]
Click-Through Rate (CTR) prediction holds a paramount position in recommender systems. Recent efforts have sought to mitigate these challenges by integrating Pre-trained Language Models (PLMs) We propose textbfCost-textbfEfficient textbfLanguage Model textbfAlignment (textbfCELA) for CTR prediction.
arXiv Detail & Related papers (2024-05-17T07:43:25Z)
Knowledge Adaptation from Large Language Model to Recommendation for Practical Industrial Application [54.984348122105516]
Large Language Models (LLMs) pretrained on massive text corpus presents a promising avenue for enhancing recommender systems. We propose an Llm-driven knowlEdge Adaptive RecommeNdation (LEARN) framework that synergizes open-world knowledge with collaborative knowledge.
arXiv Detail & Related papers (2024-05-07T04:00:30Z)
Large Language Models meet Collaborative Filtering: An Efficient All-round LLM-based Recommender System [19.8986219047121]
Collaborative filtering recommender systems (CF-RecSys) have shown successive results in enhancing the user experience on social media and e-commerce platforms. Recent strategies have focused on leveraging modality information of user/items based on pre-trained modality encoders and Large Language Models. We propose an efficient All-round LLM-based Recommender system, called A-LLMRec, that excels not only in the cold scenario but also in the warm scenario.
arXiv Detail & Related papers (2024-04-17T13:03:07Z)
Representation Learning with Large Language Models for Recommendation [34.46344639742642]
We propose a model-agnostic framework RLMRec to enhance recommenders with large language models (LLMs)empowered representation learning. RLMRec incorporates auxiliary textual signals, develops a user/item profiling paradigm empowered by LLMs, and aligns the semantic space of LLMs with the representation space of collaborative relational signals.
arXiv Detail & Related papers (2023-10-24T15:51:13Z)
Offline RL for Natural Language Generation with Implicit Language Q Learning [87.76695816348027]
Large language models can be inconsistent when it comes to completing user specified tasks. We propose a novel RL method, that combines both the flexible utility framework of RL with the ability of supervised learning. In addition to empirically validating ILQL, we present a detailed empirical analysis situations where offline RL can be useful in natural language generation settings.
arXiv Detail & Related papers (2022-06-05T18:38:42Z)

This list is automatically generated from the titles and abstracts of the papers in this site.