Your search keyword '"Feng, Fuli"' showing total 98 results

1. Leave No Patient Behind: Enhancing Medication Recommendation for Rare Disease Patients

Author

Zhao, Zihao, Jing, Yi, Feng, Fuli, Wu, Jiancan, Gao, Chongming, He, Xiangnan, Zhao, Zihao, Jing, Yi, Feng, Fuli, Wu, Jiancan, Gao, Chongming, and He, Xiangnan

Abstract

Medication recommendation systems have gained significant attention in healthcare as a means of providing tailored and effective drug combinations based on patients' clinical information. However, existing approaches often suffer from fairness issues, as recommendations tend to be more accurate for patients with common diseases compared to those with rare conditions. In this paper, we propose a novel model called Robust and Accurate REcommendations for Medication (RAREMed), which leverages the pretrain-finetune learning paradigm to enhance accuracy for rare diseases. RAREMed employs a transformer encoder with a unified input sequence approach to capture complex relationships among disease and procedure codes. Additionally, it introduces two self-supervised pre-training tasks, namely Sequence Matching Prediction (SMP) and Self Reconstruction (SR), to learn specialized medication needs and interrelations among clinical codes. Experimental results on two real-world datasets demonstrate that RAREMed provides accurate drug sets for both rare and common disease patients, thereby mitigating unfairness in medication recommendation systems.

Published

2024

2. Think Twice Before Trusting: Self-Detection for Large Language Models through Comprehensive Answer Reflection

Author

Li, Moxin, Wang, Wenjie, Feng, Fuli, Zhu, Fengbin, Wang, Qifan, Chua, Tat-Seng, Li, Moxin, Wang, Wenjie, Feng, Fuli, Zhu, Fengbin, Wang, Qifan, and Chua, Tat-Seng

Abstract

Self-detection for Large Language Model (LLM) seeks to evaluate the LLM output trustability by leveraging LLM's own capabilities, alleviating the output hallucination issue. However, existing self-detection approaches only retrospectively evaluate answers generated by LLM, typically leading to the over-trust in incorrectly generated answers. To tackle this limitation, we propose a novel self-detection paradigm that considers the comprehensive answer space beyond LLM-generated answers. It thoroughly compares the trustability of multiple candidate answers to mitigate the over-trust in LLM-generated incorrect answers. Building upon this paradigm, we introduce a two-step framework, which firstly instructs LLM to reflect and provide justifications for each candidate answer, and then aggregates the justifications for comprehensive target answer evaluation. This framework can be seamlessly integrated with existing approaches for superior self-detection. Extensive experiments on six datasets spanning three tasks demonstrate the effectiveness of the proposed framework., Comment: Under review

Published

2024

3. Proactive Recommendation with Iterative Preference Guidance

Author

Bi, Shuxian, Wang, Wenjie, Pan, Hang, Feng, Fuli, He, Xiangnan, Bi, Shuxian, Wang, Wenjie, Pan, Hang, Feng, Fuli, and He, Xiangnan

Abstract

Recommender systems mainly tailor personalized recommendations according to user interests learned from user feedback. However, such recommender systems passively cater to user interests and even reinforce existing interests in the feedback loop, leading to problems like filter bubbles and opinion polarization. To counteract this, proactive recommendation actively steers users towards developing new interests in a target item or topic by strategically modulating recommendation sequences. Existing work for proactive recommendation faces significant hurdles: 1) overlooking the user feedback in the guidance process; 2) lacking explicit modeling of the guiding objective; and 3) insufficient flexibility for integration into existing industrial recommender systems. To address these issues, we introduce an Iterative Preference Guidance (IPG) framework. IPG performs proactive recommendation in a flexible post-processing manner by ranking items according to their IPG scores that consider both interaction probability and guiding value. These scores are explicitly estimated with iteratively updated user representation that considers the most recent user interactions. Extensive experiments validate that IPG can effectively guide user interests toward target interests with a reasonable trade-off in recommender accuracy. The code is available at https://github.com/GabyUSTC/IPG-Rec., Comment: Accepted by WWW 2024 (Short)

Published

2024

4. The 2nd Workshop on Recommendation with Generative Models

Author

Wang, Wenjie, Zhang, Yang, Lin, Xinyu, Feng, Fuli, Liu, Weiwen, Liu, Yong, Zhao, Xiangyu, Zhao, Wayne Xin, Song, Yang, He, Xiangnan, Wang, Wenjie, Zhang, Yang, Lin, Xinyu, Feng, Fuli, Liu, Weiwen, Liu, Yong, Zhao, Xiangyu, Zhao, Wayne Xin, Song, Yang, and He, Xiangnan

Abstract

The rise of generative models has driven significant advancements in recommender systems, leaving unique opportunities for enhancing users' personalized recommendations. This workshop serves as a platform for researchers to explore and exchange innovative concepts related to the integration of generative models into recommender systems. It primarily focuses on five key perspectives: (i) improving recommender algorithms, (ii) generating personalized content, (iii) evolving the user-system interaction paradigm, (iv) enhancing trustworthiness checks, and (v) refining evaluation methodologies for generative recommendations. With generative models advancing rapidly, an increasing body of research is emerging in these domains, underscoring the timeliness and critical importance of this workshop. The related research will introduce innovative technologies to recommender systems and contribute to fresh challenges in both academia and industry. In the long term, this research direction has the potential to revolutionize the traditional recommender paradigms and foster the development of next-generation recommender systems.

Published

2024

5. Lower-Left Partial AUC: An Effective and Efficient Optimization Metric for Recommendation

Author

Shi, Wentao, Wang, Chenxu, Feng, Fuli, Zhang, Yang, Wang, Wenjie, Wu, Junkang, He, Xiangnan, Shi, Wentao, Wang, Chenxu, Feng, Fuli, Zhang, Yang, Wang, Wenjie, Wu, Junkang, and He, Xiangnan

Abstract

Optimization metrics are crucial for building recommendation systems at scale. However, an effective and efficient metric for practical use remains elusive. While Top-K ranking metrics are the gold standard for optimization, they suffer from significant computational overhead. Alternatively, the more efficient accuracy and AUC metrics often fall short of capturing the true targets of recommendation tasks, leading to suboptimal performance. To overcome this dilemma, we propose a new optimization metric, Lower-Left Partial AUC (LLPAUC), which is computationally efficient like AUC but strongly correlates with Top-K ranking metrics. Compared to AUC, LLPAUC considers only the partial area under the ROC curve in the Lower-Left corner to push the optimization focus on Top-K. We provide theoretical validation of the correlation between LLPAUC and Top-K ranking metrics and demonstrate its robustness to noisy user feedback. We further design an efficient point-wise recommendation loss to maximize LLPAUC and evaluate it on three datasets, validating its effectiveness and robustness., Comment: WWW 2024; 15 pages

Published

2024

6. Uplift Modeling for Target User Attacks on Recommender Systems

Author

Wang, Wenjie, Wang, Changsheng, Feng, Fuli, Shi, Wentao, Ding, Daizong, Chua, Tat-Seng, Wang, Wenjie, Wang, Changsheng, Feng, Fuli, Shi, Wentao, Ding, Daizong, and Chua, Tat-Seng

Abstract

Recommender systems are vulnerable to injective attacks, which inject limited fake users into the platforms to manipulate the exposure of target items to all users. In this work, we identify that conventional injective attackers overlook the fact that each item has its unique potential audience, and meanwhile, the attack difficulty across different users varies. Blindly attacking all users will result in a waste of fake user budgets and inferior attack performance. To address these issues, we focus on an under-explored attack task called target user attacks, aiming at promoting target items to a particular user group. In addition, we formulate the varying attack difficulty as heterogeneous treatment effects through a causal lens and propose an Uplift-guided Budget Allocation (UBA) framework. UBA estimates the treatment effect on each target user and optimizes the allocation of fake user budgets to maximize the attack performance. Theoretical and empirical analysis demonstrates the rationality of treatment effect estimation methods of UBA. By instantiating UBA on multiple attackers, we conduct extensive experiments on three datasets under various settings with different target items, target users, fake user budgets, victim models, and defense models, validating the effectiveness and robustness of UBA., Comment: Accepted by WWW'24 as an oral paper

Published

2024

7. Large Language Models are Learnable Planners for Long-Term Recommendation

Author

Shi, Wentao, He, Xiangnan, Zhang, Yang, Gao, Chongming, Li, Xinyue, Zhang, Jizhi, Wang, Qifan, Feng, Fuli, Shi, Wentao, He, Xiangnan, Zhang, Yang, Gao, Chongming, Li, Xinyue, Zhang, Jizhi, Wang, Qifan, and Feng, Fuli

Abstract

Planning for both immediate and long-term benefits becomes increasingly important in recommendation. Existing methods apply Reinforcement Learning (RL) to learn planning capacity by maximizing cumulative reward for long-term recommendation. However, the scarcity of recommendation data presents challenges such as instability and susceptibility to overfitting when training RL models from scratch, resulting in sub-optimal performance. In this light, we propose to leverage the remarkable planning capabilities over sparse data of Large Language Models (LLMs) for long-term recommendation. The key to achieving the target lies in formulating a guidance plan following principles of enhancing long-term engagement and grounding the plan to effective and executable actions in a personalized manner. To this end, we propose a Bi-level Learnable LLM Planner framework, which consists of a set of LLM instances and breaks down the learning process into macro-learning and micro-learning to learn macro-level guidance and micro-level personalized recommendation policies, respectively. Extensive experiments validate that the framework facilitates the planning ability of LLMs for long-term recommendation. Our code and data can be found at https://github.com/jizhi-zhang/BiLLP., Comment: 11 pages, 5 figures

Published

2024

8. Item-side Fairness of Large Language Model-based Recommendation System

Author

Jiang, Meng, Bao, Keqin, Zhang, Jizhi, Wang, Wenjie, Yang, Zhengyi, Feng, Fuli, He, Xiangnan, Jiang, Meng, Bao, Keqin, Zhang, Jizhi, Wang, Wenjie, Yang, Zhengyi, Feng, Fuli, and He, Xiangnan

Abstract

Recommendation systems for Web content distribution intricately connect to the information access and exposure opportunities for vulnerable populations. The emergence of Large Language Models-based Recommendation System (LRS) may introduce additional societal challenges to recommendation systems due to the inherent biases in Large Language Models (LLMs). From the perspective of item-side fairness, there remains a lack of comprehensive investigation into the item-side fairness of LRS given the unique characteristics of LRS compared to conventional recommendation systems. To bridge this gap, this study examines the property of LRS with respect to item-side fairness and reveals the influencing factors of both historical users' interactions and inherent semantic biases of LLMs, shedding light on the need to extend conventional item-side fairness methods for LRS. Towards this goal, we develop a concise and effective framework called IFairLRS to enhance the item-side fairness of an LRS. IFairLRS covers the main stages of building an LRS with specifically adapted strategies to calibrate the recommendations of LRS. We utilize IFairLRS to fine-tune LLaMA, a representative LLM, on \textit{MovieLens} and \textit{Steam} datasets, and observe significant item-side fairness improvements. The code can be found in https://github.com/JiangM-C/IFairLRS.git., Comment: Accepted by the Proceedings of the ACM Web Conference 2024

Published

2024

9. Diffusion Models for Generative Outfit Recommendation

Author

Xu, Yiyan, Wang, Wenjie, Feng, Fuli, Ma, Yunshan, Zhang, Jizhi, He, Xiangnan, Xu, Yiyan, Wang, Wenjie, Feng, Fuli, Ma, Yunshan, Zhang, Jizhi, and He, Xiangnan

Abstract

Outfit Recommendation (OR) in the fashion domain has evolved through two stages: Pre-defined Outfit Recommendation and Personalized Outfit Composition. However, both stages are constrained by existing fashion products, limiting their effectiveness in addressing users' diverse fashion needs. Recently, the advent of AI-generated content provides the opportunity for OR to transcend these limitations, showcasing the potential for personalized outfit generation and recommendation. To this end, we introduce a novel task called Generative Outfit Recommendation (GOR), aiming to generate a set of fashion images and compose them into a visually compatible outfit tailored to specific users. The key objectives of GOR lie in the high fidelity, compatibility, and personalization of generated outfits. To achieve these, we propose a generative outfit recommender model named DiFashion, which empowers exceptional diffusion models to accomplish the parallel generation of multiple fashion images. To ensure three objectives, we design three kinds of conditions to guide the parallel generation process and adopt Classifier-Free-Guidance to enhance the alignment between the generated images and conditions. We apply DiFashion on both personalized Fill-In-The-Blank and GOR tasks and conduct extensive experiments on iFashion and Polyvore-U datasets. The quantitative and human-involved qualitative evaluation demonstrate the superiority of DiFashion over competitive baselines., Comment: accepted for publication in SIGIR'24

Published

2024

10. Prospect Personalized Recommendation on Large Language Model-based Agent Platform

Author

Zhang, Jizhi, Bao, Keqin, Wang, Wenjie, Zhang, Yang, Shi, Wentao, Xu, Wanhong, Feng, Fuli, Chua, Tat-Seng, Zhang, Jizhi, Bao, Keqin, Wang, Wenjie, Zhang, Yang, Shi, Wentao, Xu, Wanhong, Feng, Fuli, and Chua, Tat-Seng

Abstract

The new kind of Agent-oriented information system, exemplified by GPTs, urges us to inspect the information system infrastructure to support Agent-level information processing and to adapt to the characteristics of Large Language Model (LLM)-based Agents, such as interactivity. In this work, we envisage the prospect of the recommender system on LLM-based Agent platforms and introduce a novel recommendation paradigm called Rec4Agentverse, comprised of Agent Items and Agent Recommender. Rec4Agentverse emphasizes the collaboration between Agent Items and Agent Recommender, thereby promoting personalized information services and enhancing the exchange of information beyond the traditional user-recommender feedback loop. Additionally, we prospect the evolution of Rec4Agentverse and conceptualize it into three stages based on the enhancement of the interaction and information exchange among Agent Items, Agent Recommender, and the user. A preliminary study involving several cases of Rec4Agentverse validates its significant potential for application. Lastly, we discuss potential issues and promising directions for future research.

Published

2024

11. Understanding and Counteracting Feature-Level Bias in Click-Through Rate Prediction

Author

Jin, Jinqiu, Ding, Sihao, Wang, Wenjie, Feng, Fuli, Jin, Jinqiu, Ding, Sihao, Wang, Wenjie, and Feng, Fuli

Abstract

Common click-through rate (CTR) prediction recommender models tend to exhibit feature-level bias, which leads to unfair recommendations among item groups and inaccurate recommendations for users. While existing methods address this issue by adjusting the learning of CTR models, such as through additional optimization objectives, they fail to consider how the bias is caused within these models. To address this research gap, our study performs a top-down analysis on representative CTR models. Through blocking different components of a trained CTR model one by one, we identify the key contribution of the linear component to feature-level bias. We conduct a theoretical analysis of the learning process for the weights in the linear component, revealing how group-wise properties of training data influence them. Our experimental and statistical analyses demonstrate a strong correlation between imbalanced positive sample ratios across item groups and feature-level bias. Based on this understanding, we propose a minimally invasive yet effective strategy to counteract feature-level bias in CTR models by removing the biased linear weights from trained models. Additionally, we present a linear weight adjusting strategy that requires fewer random exposure records than relevant debiasing methods. The superiority of our proposed strategies are validated through extensive experiments on three real-world datasets.

Published

2024

12. Data-efficient Fine-tuning for LLM-based Recommendation

Author

Lin, Xinyu, Wang, Wenjie, Li, Yongqi, Yang, Shuo, Feng, Fuli, Wei, Yinwei, Chua, Tat-Seng, Lin, Xinyu, Wang, Wenjie, Li, Yongqi, Yang, Shuo, Feng, Fuli, Wei, Yinwei, and Chua, Tat-Seng

Abstract

Leveraging Large Language Models (LLMs) for recommendation has recently garnered considerable attention, where fine-tuning plays a key role in LLMs' adaptation. However, the cost of fine-tuning LLMs on rapidly expanding recommendation data limits their practical application. To address this challenge, few-shot fine-tuning offers a promising approach to quickly adapt LLMs to new recommendation data. We propose the task of data pruning for efficient LLM-based recommendation, aimed at identifying representative samples tailored for LLMs' few-shot fine-tuning. While coreset selection is closely related to the proposed task, existing coreset selection methods often rely on suboptimal heuristic metrics or entail costly optimization on large-scale recommendation data. To tackle these issues, we introduce two objectives for the data pruning task in the context of LLM-based recommendation: 1) high accuracy aims to identify the influential samples that can lead to high overall performance; and 2) high efficiency underlines the low costs of the data pruning process. To pursue the two objectives, we propose a novel data pruning method based on two scores, i.e., influence score and effort score, to efficiently identify the influential samples. Particularly, the influence score is introduced to accurately estimate the influence of sample removal on the overall performance. To achieve low costs of the data pruning process, we use a small-sized surrogate model to replace LLMs to obtain the influence score. Considering the potential gap between the surrogate model and LLMs, we further propose an effort score to prioritize some hard samples specifically for LLMs. Empirical results on three real-world datasets validate the effectiveness of our proposed method. In particular, the proposed method uses only 2% samples to surpass the full data fine-tuning, reducing time costs by 97%., Comment: Accepted by SIGIR 2024

Published

2024

13. TAT-LLM: A Specialized Language Model for Discrete Reasoning over Tabular and Textual Data

Author

Zhu, Fengbin, Liu, Ziyang, Feng, Fuli, Wang, Chao, Li, Moxin, Chua, Tat-Seng, Zhu, Fengbin, Liu, Ziyang, Feng, Fuli, Wang, Chao, Li, Moxin, and Chua, Tat-Seng

Abstract

In this work, we address question answering (QA) over a hybrid of tabular and textual data that are very common content on the Web (e.g. SEC filings), where discrete reasoning capabilities are often required. Recently, large language models (LLMs) like GPT-4 have demonstrated strong multi-step reasoning capabilities. We then consider harnessing the amazing power of LLMs to solve our task. We abstract a Step-wise Pipeline for tabular and textual QA, which consists of three key steps, including Extractor, Reasoner and Executor, and initially design an instruction to instantiate the pipeline and validate that GPT-4 outperforms all existing methods. However, utilizing an online LLM like GPT-4 holds various challenges in terms of cost, latency, and data security risk, which motivates us to specialize smaller LLMs in this task. We develop a TAT-LLM language model by fine-tuning LLaMA 2 with the training data generated automatically from existing expert-annotated datasets following the Step-wise Pipeline. The experimental results have verified that our TAT-LLM model can outperform all baseline models, including the previous best fine-tuned models and very large-scale LLMs like GPT-4 on FinQA, TAT-QA and TAT-DQA benchmarks., Comment: ACL 2024 (Under Review)

Published

2024

14. Plug-In Diffusion Model for Embedding Denoising in Recommendation System

Author

Zhao, Jujia, Wang, Wenjie, Xu, Yiyan, Sun, Teng, Feng, Fuli, Zhao, Jujia, Wang, Wenjie, Xu, Yiyan, Sun, Teng, and Feng, Fuli

Abstract

In the realm of recommender systems, handling noisy implicit feedback is a prevalent challenge. While most research efforts focus on mitigating noise through data cleaning methods like resampling and reweighting, these approaches often rely on heuristic assumptions. Alternatively, model perspective denoising strategies actively incorporate noise into user-item interactions, aiming to bolster the model's inherent denoising capabilities. Nonetheless, this type of denoising method presents substantial challenges to the capacity of the recommender model to accurately identify and represent noise patterns. To overcome these hurdles, we introduce a plug-in diffusion model for embedding denoising in recommendation system, which employs a multi-step denoising approach based on diffusion models to foster robust representation learning of embeddings. Our model operates by introducing controlled Gaussian noise into user and item embeddings derived from various recommender systems during the forward phase. Subsequently, it iteratively eliminates this noise in the reverse denoising phase, thereby augmenting the embeddings' resilience to noisy feedback. The primary challenge in this process is determining direction and an optimal starting point for the denoising process. To address this, we incorporate a specialized denoising module that utilizes collaborative data as a guide for the denoising process. Furthermore, during the inference phase, we employ the average of item embeddings previously favored by users as the starting point to facilitate ideal item generation. Our thorough evaluations across three datasets and in conjunction with three classic backend models confirm its superior performance.

Published

2024

15. Text-like Encoding of Collaborative Information in Large Language Models for Recommendation

Author

Zhang, Yang, Bao, Keqin, Yan, Ming, Wang, Wenjie, Feng, Fuli, He, Xiangnan, Zhang, Yang, Bao, Keqin, Yan, Ming, Wang, Wenjie, Feng, Fuli, and He, Xiangnan

Abstract

When adapting Large Language Models for Recommendation (LLMRec), it is crucial to integrate collaborative information. Existing methods achieve this by learning collaborative embeddings in LLMs' latent space from scratch or by mapping from external models. However, they fail to represent the information in a text-like format, which may not align optimally with LLMs. To bridge this gap, we introduce BinLLM, a novel LLMRec method that seamlessly integrates collaborative information through text-like encoding. BinLLM converts collaborative embeddings from external models into binary sequences -- a specific text format that LLMs can understand and operate on directly, facilitating the direct usage of collaborative information in text-like format by LLMs. Additionally, BinLLM provides options to compress the binary sequence using dot-decimal notation to avoid excessively long lengths. Extensive experiments validate that BinLLM introduces collaborative information in a manner better aligned with LLMs, resulting in enhanced performance. We release our code at https://github.com/zyang1580/BinLLM., Comment: Accepted by ACL 2024

Published

2024

16. On the Maximal Local Disparity of Fairness-Aware Classifiers

Author

Jin, Jinqiu, Li, Haoxuan, Feng, Fuli, Jin, Jinqiu, Li, Haoxuan, and Feng, Fuli

Abstract

Fairness has become a crucial aspect in the development of trustworthy machine learning algorithms. Current fairness metrics to measure the violation of demographic parity have the following drawbacks: (i) the average difference of model predictions on two groups cannot reflect their distribution disparity, and (ii) the overall calculation along all possible predictions conceals the extreme local disparity at or around certain predictions. In this work, we propose a novel fairness metric called Maximal Cumulative ratio Disparity along varying Predictions' neighborhood (MCDP), for measuring the maximal local disparity of the fairness-aware classifiers. To accurately and efficiently calculate the MCDP, we develop a provably exact and an approximate calculation algorithm that greatly reduces the computational complexity with low estimation error. We further propose a bi-level optimization algorithm using a differentiable approximation of the MCDP for improving the algorithmic fairness. Extensive experiments on both tabular and image datasets validate that our fair training algorithm can achieve superior fairness-accuracy trade-offs.

Published

2024

17. Evaluating Mathematical Reasoning of Large Language Models: A Focus on Error Identification and Correction

Author

Li, Xiaoyuan, Wang, Wenjie, Li, Moxin, Guo, Junrong, Zhang, Yang, Feng, Fuli, Li, Xiaoyuan, Wang, Wenjie, Li, Moxin, Guo, Junrong, Zhang, Yang, and Feng, Fuli

Abstract

The rapid advancement of Large Language Models (LLMs) in the realm of mathematical reasoning necessitates comprehensive evaluations to gauge progress and inspire future directions. Existing assessments predominantly focus on problem-solving from the examinee perspective, overlooking a dual perspective of examiner regarding error identification and correction. From the examiner perspective, we define four evaluation tasks for error identification and correction along with a new dataset with annotated error types and steps. We also design diverse prompts to thoroughly evaluate eleven representative LLMs. Our principal findings indicate that GPT-4 outperforms all models, while open-source model LLaMA-2-7B demonstrates comparable abilities to closed-source models GPT-3.5 and Gemini Pro. Notably, calculation error proves the most challenging error type. Moreover, prompting LLMs with the error types can improve the average correction accuracy by 47.9\%. These results reveal potential directions for developing the mathematical reasoning abilities of LLMs. Our code and dataset is available on https://github.com/LittleCirc1e/EIC., Comment: ACL Findings 2024

Published

2024

18. Causal Distillation for Alleviating Performance Heterogeneity in Recommender Systems

Author

Zhang, Shengyu, Jiang, Ziqi, Yao, Jiangchao, Feng, Fuli, Kuang, Kun, Zhao, Zhou, Li, Shuo, Yang, Hongxia, Chua, Tat-Seng, Wu, Fei, Zhang, Shengyu, Jiang, Ziqi, Yao, Jiangchao, Feng, Fuli, Kuang, Kun, Zhao, Zhou, Li, Shuo, Yang, Hongxia, Chua, Tat-Seng, and Wu, Fei

Abstract

Recommendation performance usually exhibits a long-tail distribution over users -- a small portion of head users enjoy much more accurate recommendation services than the others. We reveal two sources of this performance heterogeneity problem: the uneven distribution of historical interactions (a natural source); and the biased training of recommender models (a model source). As addressing this problem cannot sacrifice the overall performance, a wise choice is to eliminate the model bias while maintaining the natural heterogeneity. The key to debiased training lies in eliminating the effect of confounders that influence both the user's historical behaviors and the next behavior. The emerging causal recommendation methods achieve this by modeling the causal effect between user behaviors, however potentially neglect unobserved confounders (\eg, friend suggestions) that are hard to measure in practice. To address unobserved confounders, we resort to the front-door adjustment (FDA) in causal theory and propose a causal multi-teacher distillation framework (CausalD). FDA requires proper mediators in order to estimate the causal effects of historical behaviors on the next behavior. To achieve this, we equip CausalD with multiple heterogeneous recommendation models to model the mediator distribution. Then, the causal effect estimated by FDA is the expectation of recommendation prediction over the mediator distribution and the prior distribution of historical behaviors, which is technically achieved by multi-teacher ensemble. To pursue efficient inference, CausalD further distills multiple teachers into one student model to directly infer the causal effect for making recommendations., Comment: TKDE 2023

Published

2024

19. Exact and Efficient Unlearning for Large Language Model-based Recommendation

Author

Hu, Zhiyu, Zhang, Yang, Xiao, Minghao, Wang, Wenjie, Feng, Fuli, He, Xiangnan, Hu, Zhiyu, Zhang, Yang, Xiao, Minghao, Wang, Wenjie, Feng, Fuli, and He, Xiangnan

Abstract

The evolving paradigm of Large Language Model-based Recommendation (LLMRec) customizes Large Language Models (LLMs) through parameter-efficient fine-tuning (PEFT) using recommendation data. The inclusion of user data in LLMs raises privacy concerns. To protect users, the unlearning process in LLMRec, specifically removing unusable data (e.g., historical behaviors) from established LLMRec models, becomes crucial. However, existing unlearning methods are insufficient for the unique characteristics of LLM-Rec, mainly due to high computational costs or incomplete data erasure. In this study, we introduce the Adapter Partition and Aggregation (APA) framework for exact and efficient unlearning while maintaining recommendation performance. APA achieves this by establishing distinct adapters for partitioned training data shards and retraining only the adapters impacted by unusable data for unlearning. To preserve recommendation performance and mitigate considerable inference costs, APA employs parameter-level adapter aggregation with sample-adaptive attention for individual testing samples. Extensive experiments substantiate the effectiveness and efficiency of our proposed framework

Published

2024

20. Learnable Tokenizer for LLM-based Generative Recommendation

Author

Wang, Wenjie, Bao, Honghui, Lin, Xinyu, Zhang, Jizhi, Li, Yongqi, Feng, Fuli, Ng, See-Kiong, Chua, Tat-Seng, Wang, Wenjie, Bao, Honghui, Lin, Xinyu, Zhang, Jizhi, Li, Yongqi, Feng, Fuli, Ng, See-Kiong, and Chua, Tat-Seng

Abstract

Harnessing Large Language Models (LLMs) for generative recommendation has garnered significant attention due to LLMs' powerful capacities such as rich world knowledge and reasoning. However, a critical challenge lies in transforming recommendation data into the language space of LLMs through effective item tokenization. Existing approaches, such as ID identifiers, textual identifiers, and codebook-based identifiers, exhibit limitations in encoding semantic information, incorporating collaborative signals, or handling code assignment bias. To address these shortcomings, we propose LETTER (a LEarnable Tokenizer for generaTivE Recommendation), designed to meet the key criteria of identifiers by integrating hierarchical semantics, collaborative signals, and code assignment diversity. LETTER integrates Residual Quantized VAE for semantic regularization, a contrastive alignment loss for collaborative regularization, and a diversity loss to mitigate code assignment bias. We instantiate LETTER within two generative recommender models and introduce a ranking-guided generation loss to enhance their ranking ability. Extensive experiments across three datasets demonstrate the superiority of LETTER in item tokenization, thereby advancing the state-of-the-art in the field of generative recommendation.

Published

2024

21. Be Aware of the Neighborhood Effect: Modeling Selection Bias under Interference

Author

Li, Haoxuan, Zheng, Chunyuan, Ding, Sihao, Wu, Peng, Geng, Zhi, Feng, Fuli, He, Xiangnan, Li, Haoxuan, Zheng, Chunyuan, Ding, Sihao, Wu, Peng, Geng, Zhi, Feng, Fuli, and He, Xiangnan

Abstract

Selection bias in recommender system arises from the recommendation process of system filtering and the interactive process of user selection. Many previous studies have focused on addressing selection bias to achieve unbiased learning of the prediction model, but ignore the fact that potential outcomes for a given user-item pair may vary with the treatments assigned to other user-item pairs, named neighborhood effect. To fill the gap, this paper formally formulates the neighborhood effect as an interference problem from the perspective of causal inference and introduces a treatment representation to capture the neighborhood effect. On this basis, we propose a novel ideal loss that can be used to deal with selection bias in the presence of neighborhood effect. We further develop two new estimators for estimating the proposed ideal loss. We theoretically establish the connection between the proposed and previous debiasing methods ignoring the neighborhood effect, showing that the proposed methods can achieve unbiased learning when both selection bias and neighborhood effect are present, while the existing methods are biased. Extensive semi-synthetic and real-world experiments are conducted to demonstrate the effectiveness of the proposed methods., Comment: ICLR 24

Published

2024

22. Fair Recommendations with Limited Sensitive Attributes: A Distributionally Robust Optimization Approach

Author

Shi, Tianhao, Zhang, Yang, Zhang, Jizhi, Feng, Fuli, He, Xiangnan, Shi, Tianhao, Zhang, Yang, Zhang, Jizhi, Feng, Fuli, and He, Xiangnan

Abstract

As recommender systems are indispensable in various domains such as job searching and e-commerce, providing equitable recommendations to users with different sensitive attributes becomes an imperative requirement. Prior approaches for enhancing fairness in recommender systems presume the availability of all sensitive attributes, which can be difficult to obtain due to privacy concerns or inadequate means of capturing these attributes. In practice, the efficacy of these approaches is limited, pushing us to investigate ways of promoting fairness with limited sensitive attribute information. Toward this goal, it is important to reconstruct missing sensitive attributes. Nevertheless, reconstruction errors are inevitable due to the complexity of real-world sensitive attribute reconstruction problems and legal regulations. Thus, we pursue fair learning methods that are robust to reconstruction errors. To this end, we propose Distributionally Robust Fair Optimization (DRFO), which minimizes the worst-case unfairness over all potential probability distributions of missing sensitive attributes instead of the reconstructed one to account for the impact of the reconstruction errors. We provide theoretical and empirical evidence to demonstrate that our method can effectively ensure fairness in recommender systems when only limited sensitive attributes are accessible., Comment: 8 pages, 5 figures, accepted by SIGIR'24

Published

2024

23. A Survey of Generative Search and Recommendation in the Era of Large Language Models

Author

Li, Yongqi, Lin, Xinyu, Wang, Wenjie, Feng, Fuli, Pang, Liang, Li, Wenjie, Nie, Liqiang, He, Xiangnan, Chua, Tat-Seng, Li, Yongqi, Lin, Xinyu, Wang, Wenjie, Feng, Fuli, Pang, Liang, Li, Wenjie, Nie, Liqiang, He, Xiangnan, and Chua, Tat-Seng

Abstract

With the information explosion on the Web, search and recommendation are foundational infrastructures to satisfying users' information needs. As the two sides of the same coin, both revolve around the same core research problem, matching queries with documents or users with items. In the recent few decades, search and recommendation have experienced synchronous technological paradigm shifts, including machine learning-based and deep learning-based paradigms. Recently, the superintelligent generative large language models have sparked a new paradigm in search and recommendation, i.e., generative search (retrieval) and recommendation, which aims to address the matching problem in a generative manner. In this paper, we provide a comprehensive survey of the emerging paradigm in information systems and summarize the developments in generative search and recommendation from a unified perspective. Rather than simply categorizing existing works, we abstract a unified framework for the generative paradigm and break down the existing works into different stages within this framework to highlight the strengths and weaknesses. And then, we distinguish generative search and recommendation with their unique challenges, identify open problems and future directions, and envision the next information-seeking paradigm.

Published

2024

24. On the Theories Behind Hard Negative Sampling for Recommendation

Author

Shi, Wentao, Chen, Jiawei, Feng, Fuli, Zhang, Jizhi, Wu, Junkang, Gao, Chongming, He, Xiangnan, Shi, Wentao, Chen, Jiawei, Feng, Fuli, Zhang, Jizhi, Wu, Junkang, Gao, Chongming, and He, Xiangnan

Abstract

Negative sampling has been heavily used to train recommender models on large-scale data, wherein sampling hard examples usually not only accelerates the convergence but also improves the model accuracy. Nevertheless, the reasons for the effectiveness of Hard Negative Sampling (HNS) have not been revealed yet. In this work, we fill the research gap by conducting thorough theoretical analyses on HNS. Firstly, we prove that employing HNS on the Bayesian Personalized Ranking (BPR) learner is equivalent to optimizing One-way Partial AUC (OPAUC). Concretely, the BPR equipped with Dynamic Negative Sampling (DNS) is an exact estimator, while with softmax-based sampling is a soft estimator. Secondly, we prove that OPAUC has a stronger connection with Top-K evaluation metrics than AUC and verify it with simulation experiments. These analyses establish the theoretical foundation of HNS in optimizing Top-K recommendation performance for the first time. On these bases, we offer two insightful guidelines for effective usage of HNS: 1) the sampling hardness should be controllable, e.g., via pre-defined hyper-parameters, to adapt to different Top-K metrics and datasets; 2) the smaller the $K$ we emphasize in Top-K evaluation metrics, the harder the negative samples we should draw. Extensive experiments on three real-world benchmarks verify the two guidelines., Comment: Accepted by WWW'2023; Code is available at https://github.com/swt-user/WWW_2023_code

Published

2023

25. Robust Prompt Optimization for Large Language Models Against Distribution Shifts

Author

Li, Moxin, Wang, Wenjie, Feng, Fuli, Cao, Yixin, Zhang, Jizhi, Chua, Tat-Seng, Li, Moxin, Wang, Wenjie, Feng, Fuli, Cao, Yixin, Zhang, Jizhi, and Chua, Tat-Seng

Abstract

Large Language Model (LLM) has demonstrated significant ability in various Natural Language Processing tasks. However, their effectiveness is highly dependent on the phrasing of the task prompt, leading to research on automatic prompt optimization using labeled task data. We reveal that these prompt optimization techniques are vulnerable to distribution shifts such as subpopulation shifts, which are common for LLMs in real-world scenarios such as customer reviews analysis. In this light, we propose a new problem of robust prompt optimization for LLMs against distribution shifts, which requires the prompt optimized over the labeled source group can simultaneously generalize to an unlabeled target group. To solve this problem, we propose Generalized Prompt Optimization framework, which incorporates the unlabeled data from the target group into prompt optimization. Extensive experimental results demonstrate the effectiveness of the proposed framework with significant performance improvement on the target group and comparable performance on the source group., Comment: EMNLP 2023 Main

Published

2023

26. Is ChatGPT Fair for Recommendation? Evaluating Fairness in Large Language Model Recommendation

Author

Zhang, Jizhi, Bao, Keqin, Zhang, Yang, Wang, Wenjie, Feng, Fuli, He, Xiangnan, Zhang, Jizhi, Bao, Keqin, Zhang, Yang, Wang, Wenjie, Feng, Fuli, and He, Xiangnan

Abstract

The remarkable achievements of Large Language Models (LLMs) have led to the emergence of a novel recommendation paradigm -- Recommendation via LLM (RecLLM). Nevertheless, it is important to note that LLMs may contain social prejudices, and therefore, the fairness of recommendations made by RecLLM requires further investigation. To avoid the potential risks of RecLLM, it is imperative to evaluate the fairness of RecLLM with respect to various sensitive attributes on the user side. Due to the differences between the RecLLM paradigm and the traditional recommendation paradigm, it is problematic to directly use the fairness benchmark of traditional recommendation. To address the dilemma, we propose a novel benchmark called Fairness of Recommendation via LLM (FaiRLLM). This benchmark comprises carefully crafted metrics and a dataset that accounts for eight sensitive attributes1 in two recommendation scenarios: music and movies. By utilizing our FaiRLLM benchmark, we conducted an evaluation of ChatGPT and discovered that it still exhibits unfairness to some sensitive attributes when generating recommendations. Our code and dataset can be found at https://github.com/jizhi-zhang/FaiRLLM., Comment: Accepted by Recsys 2023 (Short)

Published

2023

27. Doc2SoarGraph: Discrete Reasoning over Visually-Rich Table-Text Documents via Semantic-Oriented Hierarchical Graphs

Author

Zhu, Fengbin, Wang, Chao, Feng, Fuli, Ren, Zifeng, Li, Moxin, Chua, Tat-Seng, Zhu, Fengbin, Wang, Chao, Feng, Fuli, Ren, Zifeng, Li, Moxin, and Chua, Tat-Seng

Abstract

Discrete reasoning over table-text documents (e.g., financial reports) gains increasing attention in recent two years. Existing works mostly simplify this challenge by manually selecting and transforming document pages to structured tables and paragraphs, hindering their practical application. In this work, we explore a more realistic problem setting in the form of TAT-DQA, i.e. to answer the question over a visually-rich table-text document. Specifically, we propose a novel Doc2SoarGraph framework with enhanced discrete reasoning capability by harnessing the differences and correlations among different elements (e.g., quantities, dates) of the given question and document with Semantic-oriented hierarchical Graph structures. We conduct extensive experiments on TAT-DQA dataset, and the results show that our proposed framework outperforms the best baseline model by 17.73% and 16.91% in terms of Exact Match (EM) and F1 score respectively on the test set, achieving the new state-of-the-art., Comment: Accepted by COLING 2024

Published

2023

28. TALLRec: An Effective and Efficient Tuning Framework to Align Large Language Model with Recommendation

Author

Bao, Keqin, Zhang, Jizhi, Zhang, Yang, Wang, Wenjie, Feng, Fuli, He, Xiangnan, Bao, Keqin, Zhang, Jizhi, Zhang, Yang, Wang, Wenjie, Feng, Fuli, and He, Xiangnan

Abstract

Large Language Models (LLMs) have demonstrated remarkable performance across diverse domains, thereby prompting researchers to explore their potential for use in recommendation systems. Initial attempts have leveraged the exceptional capabilities of LLMs, such as rich knowledge and strong generalization through In-context Learning, which involves phrasing the recommendation task as prompts. Nevertheless, the performance of LLMs in recommendation tasks remains suboptimal due to a substantial disparity between the training tasks for LLMs and recommendation tasks, as well as inadequate recommendation data during pre-training. To bridge the gap, we consider building a Large Recommendation Language Model by tunning LLMs with recommendation data. To this end, we propose an efficient and effective Tuning framework for Aligning LLMs with Recommendation, namely TALLRec. We have demonstrated that the proposed TALLRec framework can significantly enhance the recommendation capabilities of LLMs in the movie and book domains, even with a limited dataset of fewer than 100 samples. Additionally, the proposed framework is highly efficient and can be executed on a single RTX 3090 with LLaMA-7B. Furthermore, the fine-tuned LLM exhibits robust cross-domain generalization. Our code and data are available at https://github.com/SAI990323/TALLRec., Comment: RecSys '23: Proceedings of the 17th ACM Conference on Recommender Systems; September 2023 Pages; 1007-1014

Published

2023

29. Prediction then Correction: An Abductive Prediction Correction Method for Sequential Recommendation

Author

Huang, Yulong, Zhang, Yang, Wang, Qifan, Wang, Chenxu, Feng, Fuli, Huang, Yulong, Zhang, Yang, Wang, Qifan, Wang, Chenxu, and Feng, Fuli

Abstract

Sequential recommender models typically generate predictions in a single step during testing, without considering additional prediction correction to enhance performance as humans would. To improve the accuracy of these models, some researchers have attempted to simulate human analogical reasoning to correct predictions for testing data by drawing analogies with the prediction errors of similar training data. However, there are inherent gaps between testing and training data, which can make this approach unreliable. To address this issue, we propose an \textit{Abductive Prediction Correction} (APC) framework for sequential recommendation. Our approach simulates abductive reasoning to correct predictions. Specifically, we design an abductive reasoning task that infers the most probable historical interactions from the future interactions predicted by a recommender, and minimizes the discrepancy between the inferred and true historical interactions to adjust the predictions.We perform the abductive inference and adjustment using a reversed sequential model in the forward and backward propagation manner of neural networks. Our APC framework is applicable to various differentiable sequential recommender models. We implement it on three backbone models and demonstrate its effectiveness. We release the code at https://github.com/zyang1580/APC.

Published

2023

30. Reformulating CTR Prediction: Learning Invariant Feature Interactions for Recommendation

Author

Zhang, Yang, Shi, Tianhao, Feng, Fuli, Wang, Wenjie, Wang, Dingxian, He, Xiangnan, Zhang, Yongdong, Zhang, Yang, Shi, Tianhao, Feng, Fuli, Wang, Wenjie, Wang, Dingxian, He, Xiangnan, and Zhang, Yongdong

Abstract

Click-Through Rate (CTR) prediction plays a core role in recommender systems, serving as the final-stage filter to rank items for a user. The key to addressing the CTR task is learning feature interactions that are useful for prediction, which is typically achieved by fitting historical click data with the Empirical Risk Minimization (ERM) paradigm. Representative methods include Factorization Machines and Deep Interest Network, which have achieved wide success in industrial applications. However, such a manner inevitably learns unstable feature interactions, i.e., the ones that exhibit strong correlations in historical data but generalize poorly for future serving. In this work, we reformulate the CTR task -- instead of pursuing ERM on historical data, we split the historical data chronologically into several periods (a.k.a, environments), aiming to learn feature interactions that are stable across periods. Such feature interactions are supposed to generalize better to predict future behavior data. Nevertheless, a technical challenge is that existing invariant learning solutions like Invariant Risk Minimization are not applicable, since the click data entangles both environment-invariant and environment-specific correlations. To address this dilemma, we propose Disentangled Invariant Learning (DIL) which disentangles feature embeddings to capture the two types of correlations separately. To improve the modeling efficiency, we further design LightDIL which performs the disentanglement at the higher level of the feature field. Extensive experiments demonstrate the effectiveness of DIL in learning stable feature interactions for CTR. We release the code at https://github.com/zyang1580/DIL., Comment: 11 pages, 6 Postscript figures, to be published in SIGIR2023

Published

2023

31. Diffusion Recommender Model

Author

Wang, Wenjie, Xu, Yiyan, Feng, Fuli, Lin, Xinyu, He, Xiangnan, Chua, Tat-Seng, Wang, Wenjie, Xu, Yiyan, Feng, Fuli, Lin, Xinyu, He, Xiangnan, and Chua, Tat-Seng

Abstract

Generative models such as Generative Adversarial Networks (GANs) and Variational Auto-Encoders (VAEs) are widely utilized to model the generative process of user interactions. However, these generative models suffer from intrinsic limitations such as the instability of GANs and the restricted representation ability of VAEs. Such limitations hinder the accurate modeling of the complex user interaction generation procedure, such as noisy interactions caused by various interference factors. In light of the impressive advantages of Diffusion Models (DMs) over traditional generative models in image synthesis, we propose a novel Diffusion Recommender Model (named DiffRec) to learn the generative process in a denoising manner. To retain personalized information in user interactions, DiffRec reduces the added noises and avoids corrupting users' interactions into pure noises like in image synthesis. In addition, we extend traditional DMs to tackle the unique challenges in practical recommender systems: high resource costs for large-scale item prediction and temporal shifts of user preference. To this end, we propose two extensions of DiffRec: L-DiffRec clusters items for dimension compression and conducts the diffusion processes in the latent space; and T-DiffRec reweights user interactions based on the interaction timestamps to encode temporal information. We conduct extensive experiments on three datasets under multiple settings (e.g. clean training, noisy training, and temporal training). The empirical results and in-depth analysis validate the superiority of DiffRec with two extensions over competitive baselines., Comment: 10 pages, 7 figures, accepted for publication in SIGIR'23

Published

2023

32. Generative Recommendation: Towards Next-generation Recommender Paradigm

Author

Wang, Wenjie, Lin, Xinyu, Feng, Fuli, He, Xiangnan, Chua, Tat-Seng, Wang, Wenjie, Lin, Xinyu, Feng, Fuli, He, Xiangnan, and Chua, Tat-Seng

Abstract

Recommender systems typically retrieve items from an item corpus for personalized recommendations. However, such a retrieval-based recommender paradigm faces two limitations: 1) the human-generated items in the corpus might fail to satisfy the users' diverse information needs, and 2) users usually adjust the recommendations via inefficient passive feedback, e.g., clicks. Nowadays, AI-Generated Content (AIGC) has revealed significant success, offering the potential to overcome these limitations: 1) generative AI can produce personalized items to satisfy users' information needs, and 2) the newly emerged large language models significantly reduce the efforts of users to precisely express information needs via natural language instructions. In this light, the boom of AIGC points the way towards the next-generation recommender paradigm with two new objectives: 1) generating personalized content through generative AI, and 2) integrating user instructions to guide content generation. To this end, we propose a novel Generative Recommender paradigm named GeneRec, which adopts an AI generator to personalize content generation and leverages user instructions. Specifically, we pre-process users' instructions and traditional feedback via an instructor to output the generation guidance. Given the guidance, we instantiate the AI generator through an AI editor and an AI creator to repurpose existing items and create new items. Eventually, GeneRec can perform content retrieval, repurposing, and creation to satisfy users' information needs. Besides, to ensure the trustworthiness of the generated items, we emphasize various fidelity checks. Moreover, we provide a roadmap to envision future developments of GeneRec and several domain-specific applications of GeneRec with potential research tasks. Lastly, we study the feasibility of implementing AI editor and AI creator on micro-video generation.

Published

2023

33. Causal Disentangled Recommendation Against User Preference Shifts

Author

Wang, Wenjie, Lin, Xinyu, Wang, Liuhui, Feng, Fuli, Ma, Yunshan, Chua, Tat-Seng, Wang, Wenjie, Lin, Xinyu, Wang, Liuhui, Feng, Fuli, Ma, Yunshan, and Chua, Tat-Seng

Abstract

Recommender systems easily face the issue of user preference shifts. User representations will become out-of-date and lead to inappropriate recommendations if user preference has shifted over time. To solve the issue, existing work focuses on learning robust representations or predicting the shifting pattern. There lacks a comprehensive view to discover the underlying reasons for user preference shifts. To understand the preference shift, we abstract a causal graph to describe the generation procedure of user interaction sequences. Assuming user preference is stable within a short period, we abstract the interaction sequence as a set of chronological environments. From the causal graph, we find that the changes of some unobserved factors (e.g., becoming pregnant) cause preference shifts between environments. Besides, the fine-grained user preference over categories sparsely affects the interactions with different items. Inspired by the causal graph, our key considerations to handle preference shifts lie in modeling the interaction generation procedure by: 1) capturing the preference shifts across environments for accurate preference prediction, and 2) disentangling the sparse influence from user preference to interactions for accurate effect estimation of preference. To this end, we propose a Causal Disentangled Recommendation (CDR) framework, which captures preference shifts via a temporal variational autoencoder and learns the sparse influence from multiple environments. Specifically, an encoder is adopted to infer the unobserved factors from user interactions while a decoder is to model the interaction generation process. Besides, we introduce two learnable matrices to disentangle the sparse influence from user preference to interactions. Lastly, we devise a multi-objective loss to optimize CDR. Extensive experiments on three datasets show the superiority of CDR., Comment: This paper has been accepted for publication in Transactions on Information Systems

Published

2023

34. RoAST: Robustifying Language Models via Adversarial Perturbation with Selective Training

Author

Kim, Jaehyung, Mao, Yuning, Hou, Rui, Yu, Hanchao, Liang, Davis, Fung, Pascale Ngan, Wang, Qifan, Feng, Fuli, Huang, Lifu, Khabsa, Madian, Kim, Jaehyung, Mao, Yuning, Hou, Rui, Yu, Hanchao, Liang, Davis, Fung, Pascale Ngan, Wang, Qifan, Feng, Fuli, Huang, Lifu, and Khabsa, Madian

Abstract

Fine-tuning pre-trained language models (LMs) has become the de facto standard in many NLP tasks. Nevertheless, fine-tuned LMs are still prone to robustness issues, such as adversarial robustness and model calibration. Several perspectives of robustness for LMs have been studied independently, but lacking a unified consideration in multiple perspectives. In this paper, we propose Robustifying LMs via Adversarial perturbation with Selective Training (ROAST), a simple yet effective fine-tuning technique to enhance the multi-perspective robustness of LMs in a unified way. ROAST effectively incorporates two important sources for the model robustness, robustness on the perturbed inputs and generalizable knowledge in pre-trained LMs. To be specific, ROAST introduces adversarial perturbation during fine-tuning while the model parameters are selectively updated upon their relative importance to minimize unnecessary deviation. Under a unified evaluation of fine-tuned LMs by incorporating four representative perspectives of model robustness, we demonstrate the effectiveness of ROAST compared to state-of-the-art fine-tuning methods on six different types of LMs, which indicates its usefulness in practice. © 2023 Association for Computational Linguistics.

Published

2023

35. Preliminary Study on Incremental Learning for Large Language Model-based Recommender Systems

Author

Shi, Tianhao, Zhang, Yang, Xu, Zhijian, Chen, Chong, Feng, Fuli, He, Xiangnan, Tian, Qi, Shi, Tianhao, Zhang, Yang, Xu, Zhijian, Chen, Chong, Feng, Fuli, He, Xiangnan, and Tian, Qi

Abstract

Adapting Large Language Models for recommendation (LLM4Rec)has garnered substantial attention and demonstrated promising results. However, the challenges of practically deploying LLM4Rec are largely unexplored, with the need for incremental adaptation to evolving user preferences being a critical concern. Nevertheless, the suitability of traditional incremental learning within LLM4Rec remains ambiguous, given the unique characteristics of LLMs. In this study, we empirically evaluate the commonly used incremental learning strategies (full retraining and fine-tuning) for LLM4Rec. Surprisingly, neither approach leads to evident improvements in LLM4Rec's performance. Rather than directly dismissing the role of incremental learning, we ascribe this lack of anticipated performance improvement to the mismatch between the LLM4Recarchitecture and incremental learning: LLM4Rec employs a single adaptation module for learning recommendation, hampering its ability to simultaneously capture long-term and short-term user preferences in the incremental learning context. To validate this speculation, we develop a Long- and Short-term Adaptation-aware Tuning (LSAT) framework for LLM4Rec incremental learning. Instead of relying on a single adaptation module, LSAT utilizes two adaptation modules to separately learn long-term and short-term user preferences. Empirical results demonstrate that LSAT could enhance performance, validating our speculation., Comment: 8 pages, 8 figures

Published

2023

36. LabelCraft: Empowering Short Video Recommendations with Automated Label Crafting

Author

Bai, Yimeng, Zhang, Yang, Lu, Jing, Chang, Jianxin, Zang, Xiaoxue, Niu, Yanan, Song, Yang, Feng, Fuli, Bai, Yimeng, Zhang, Yang, Lu, Jing, Chang, Jianxin, Zang, Xiaoxue, Niu, Yanan, Song, Yang, and Feng, Fuli

Abstract

Short video recommendations often face limitations due to the quality of user feedback, which may not accurately depict user interests. To tackle this challenge, a new task has emerged: generating more dependable labels from original feedback. Existing label generation methods rely on manual rules, demanding substantial human effort and potentially misaligning with the desired objectives of the platform. To transcend these constraints, we introduce LabelCraft, a novel automated label generation method explicitly optimizing pivotal operational metrics for platform success. By formulating label generation as a higher-level optimization problem above recommender model optimization, LabelCraft introduces a trainable labeling model for automatic label mechanism modeling. Through meta-learning techniques, LabelCraft effectively addresses the bi-level optimization hurdle posed by the recommender and labeling models, enabling the automatic acquisition of intricate label generation mechanisms.Extensive experiments on real-world datasets corroborate LabelCraft's excellence across varied operational metrics, encompassing usage time, user engagement, and retention. Codes are available at https://github.com/baiyimeng/LabelCraft., Comment: Accepted by WSDM'24

Published

2023

37. Temporally and Distributionally Robust Optimization for Cold-Start Recommendation

Author

Lin, Xinyu, Wang, Wenjie, Zhao, Jujia, Li, Yongqi, Feng, Fuli, Chua, Tat-Seng, Lin, Xinyu, Wang, Wenjie, Zhao, Jujia, Li, Yongqi, Feng, Fuli, and Chua, Tat-Seng

Abstract

Collaborative Filtering (CF) recommender models highly depend on user-item interactions to learn CF representations, thus falling short of recommending cold-start items. To address this issue, prior studies mainly introduce item features (e.g., thumbnails) for cold-start item recommendation. They learn a feature extractor on warm-start items to align feature representations with interactions, and then leverage the feature extractor to extract the feature representations of cold-start items for interaction prediction. Unfortunately, the features of cold-start items, especially the popular ones, tend to diverge from those of warm-start ones due to temporal feature shifts, preventing the feature extractor from accurately learning feature representations of cold-start items. To alleviate the impact of temporal feature shifts, we consider using Distributionally Robust Optimization (DRO) to enhance the generation ability of the feature extractor. Nonetheless, existing DRO methods face an inconsistency issue: the worse-case warm-start items emphasized during DRO training might not align well with the cold-start item distribution. To capture the temporal feature shifts and combat this inconsistency issue, we propose a novel temporal DRO with new optimization objectives, namely, 1) to integrate a worst-case factor to improve the worst-case performance, and 2) to devise a shifting factor to capture the shifting trend of item features and enhance the optimization of the potentially popular groups in cold-start items. Substantial experiments on three real-world datasets validate the superiority of our temporal DRO in enhancing the generalization ability of cold-start recommender models. The code is available at https://github.com/Linxyhaha/TDRO/., Comment: Accepted by AAAI'24

Published

2023

38. RoAST: Robustifying Language Models via Adversarial Perturbation with Selective Training

Author

Kim, Jaehyung, Mao, Yuning, Hou, Rui, Yu, Hanchao, Liang, Davis, Fung, Pascale, Wang, Qifan, Feng, Fuli, Huang, Lifu, Khabsa, Madian, Kim, Jaehyung, Mao, Yuning, Hou, Rui, Yu, Hanchao, Liang, Davis, Fung, Pascale, Wang, Qifan, Feng, Fuli, Huang, Lifu, and Khabsa, Madian

Abstract

Fine-tuning pre-trained language models (LMs) has become the de facto standard in many NLP tasks. Nevertheless, fine-tuned LMs are still prone to robustness issues, such as adversarial robustness and model calibration. Several perspectives of robustness for LMs have been studied independently, but lacking a unified consideration in multiple perspectives. In this paper, we propose Robustifying LMs via Adversarial perturbation with Selective Training (RoAST), a simple yet effective fine-tuning technique to enhance the multi-perspective robustness of LMs in a unified way. RoAST effectively incorporates two important sources for the model robustness, robustness on the perturbed inputs and generalizable knowledge in pre-trained LMs. To be specific, RoAST introduces adversarial perturbation during fine-tuning while the model parameters are selectively updated upon their relative importance to minimize unnecessary deviation. Under a unified evaluation of fine-tuned LMs by incorporating four representative perspectives of model robustness, we demonstrate the effectiveness of RoAST compared to state-of-the-art fine-tuning methods on six different types of LMs, which indicates its usefulness in practice., Comment: 33 pages, accepted at EMNLP 2023 Findings

Published

2023

39. CoLLM: Integrating Collaborative Embeddings into Large Language Models for Recommendation

Author

Zhang, Yang, Feng, Fuli, Zhang, Jizhi, Bao, Keqin, Wang, Qifan, He, Xiangnan, Zhang, Yang, Feng, Fuli, Zhang, Jizhi, Bao, Keqin, Wang, Qifan, and He, Xiangnan

Abstract

Leveraging Large Language Models as Recommenders (LLMRec) has gained significant attention and introduced fresh perspectives in user preference modeling. Existing LLMRec approaches prioritize text semantics, usually neglecting the valuable collaborative information from user-item interactions in recommendations. While these text-emphasizing approaches excel in cold-start scenarios, they may yield sub-optimal performance in warm-start situations. In pursuit of superior recommendations for both cold and warm start scenarios, we introduce CoLLM, an innovative LLMRec methodology that seamlessly incorporates collaborative information into LLMs for recommendation. CoLLM captures collaborative information through an external traditional model and maps it to the input token embedding space of LLM, forming collaborative embeddings for LLM usage. Through this external integration of collaborative information, CoLLM ensures effective modeling of collaborative information without modifying the LLM itself, providing the flexibility to employ various collaborative information modeling techniques. Extensive experiments validate that CoLLM adeptly integrates collaborative information into LLMs, resulting in enhanced recommendation performance. We release the code and data at https://github.com/zyang1580/CoLLM.

Published

2023

40. Attack Prompt Generation for Red Teaming and Defending Large Language Models

Author

Deng, Boyi, Wang, Wenjie, Feng, Fuli, Deng, Yang, Wang, Qifan, He, Xiangnan, Deng, Boyi, Wang, Wenjie, Feng, Fuli, Deng, Yang, Wang, Qifan, and He, Xiangnan

Abstract

Large language models (LLMs) are susceptible to red teaming attacks, which can induce LLMs to generate harmful content. Previous research constructs attack prompts via manual or automatic methods, which have their own limitations on construction cost and quality. To address these issues, we propose an integrated approach that combines manual and automatic methods to economically generate high-quality attack prompts. Specifically, considering the impressive capabilities of newly emerged LLMs, we propose an attack framework to instruct LLMs to mimic human-generated prompts through in-context learning. Furthermore, we propose a defense framework that fine-tunes victim LLMs through iterative interactions with the attack framework to enhance their safety against red teaming attacks. Extensive experiments on different LLMs validate the effectiveness of our proposed attack and defense frameworks. Additionally, we release a series of attack prompts datasets named SAP with varying sizes, facilitating the safety evaluation and enhancement of more LLMs. Our code and dataset is available on https://github.com/Aatrox103/SAP ., Comment: Accepted to EMNLP 2023 (Findings)

Published

2023

41. A Multi-facet Paradigm to Bridge Large Language Model and Recommendation

Author

Lin, Xinyu, Wang, Wenjie, Li, Yongqi, Feng, Fuli, Ng, See-Kiong, Chua, Tat-Seng, Lin, Xinyu, Wang, Wenjie, Li, Yongqi, Feng, Fuli, Ng, See-Kiong, and Chua, Tat-Seng

Abstract

Large Language Models (LLMs) have garnered considerable attention in recommender systems. To achieve LLM-based recommendation, item indexing and generation grounding are two essential steps, bridging between recommendation items and natural language. Item indexing assigns a unique identifier to represent each item in natural language, and generation grounding grounds the generated token sequences to in-corpus items. However, previous works suffer from inherent limitations in the two steps. For item indexing, existing ID-based identifiers (e.g., numeric IDs) and description-based identifiers (e.g., titles) often compromise semantic richness or uniqueness. Moreover, generation grounding might inadvertently produce out-of-corpus identifiers. Worse still, autoregressive generation heavily relies on the initial token's quality. To combat these issues, we propose a novel multi-facet paradigm, namely TransRec, to bridge the LLMs to recommendation. Specifically, TransRec employs multi-facet identifiers that incorporate ID, title, and attribute, achieving both distinctiveness and semantics. Additionally, we introduce a specialized data structure for TransRec to guarantee the in-corpus identifier generation and adopt substring indexing to encourage LLMs to generate from any position. We implement TransRec on two backbone LLMs, i.e., BART-large and LLaMA-7B. Empirical results on three real-world datasets under diverse settings (e.g., full training and few-shot training with warm- and cold-start testings) attest to the superiority of TransRec.

Published

2023

42. RecAD: Towards A Unified Library for Recommender Attack and Defense

Author

Wang, Changsheng, Ye, Jianbai, Wang, Wenjie, Gao, Chongming, Feng, Fuli, He, Xiangnan, Wang, Changsheng, Ye, Jianbai, Wang, Wenjie, Gao, Chongming, Feng, Fuli, and He, Xiangnan

Abstract

In recent years, recommender systems have become a ubiquitous part of our daily lives, while they suffer from a high risk of being attacked due to the growing commercial and social values. Despite significant research progress in recommender attack and defense, there is a lack of a widely-recognized benchmarking standard in the field, leading to unfair performance comparison and limited credibility of experiments. To address this, we propose RecAD, a unified library aiming at establishing an open benchmark for recommender attack and defense. RecAD takes an initial step to set up a unified benchmarking pipeline for reproducible research by integrating diverse datasets, standard source codes, hyper-parameter settings, running logs, attack knowledge, attack budget, and evaluation results. The benchmark is designed to be comprehensive and sustainable, covering both attack, defense, and evaluation tasks, enabling more researchers to easily follow and contribute to this promising field. RecAD will drive more solid and reproducible research on recommender systems attack and defense, reduce the redundant efforts of researchers, and ultimately increase the credibility and practical value of recommender attack and defense. The project is released at https://github.com/gusye1234/recad.

Published

2023

43. Label Denoising through Cross-Model Agreement

Author

Wang, Yu, Xin, Xin, Meng, Zaiqiao, Jose, Joemon, Feng, Fuli, Wang, Yu, Xin, Xin, Meng, Zaiqiao, Jose, Joemon, and Feng, Fuli

Abstract

Learning from corrupted labels is very common in real-world machine-learning applications. Memorizing such noisy labels could affect the learning of the model, leading to sub-optimal performances. In this work, we propose a novel framework to learn robust machine-learning models from noisy labels. Through an empirical study, we find that different models make relatively similar predictions on clean examples, while the predictions on noisy examples vary much more across different models. Motivated by this observation, we propose \em denoising with cross-model agreement \em (DeCA) which aims to minimize the KL-divergence between the true label distributions parameterized by two machine learning models while maximizing the likelihood of data observation. We employ the proposed DeCA on both the binary label scenario and the multiple label scenario. For the binary label scenario, we select implicit feedback recommendation as the downstream task and conduct experiments with four state-of-the-art recommendation models on four datasets. For the multiple-label scenario, the downstream application is image classification on two benchmark datasets. Experimental results demonstrate that the proposed methods significantly improve the model performance compared with normal training and other denoising methods on both binary and multiple-label scenarios., Comment: arXiv admin note: substantial text overlap with arXiv:2105.09605

Published

2023

44. A Bi-Step Grounding Paradigm for Large Language Models in Recommendation Systems

Author

Bao, Keqin, Zhang, Jizhi, Wang, Wenjie, Zhang, Yang, Yang, Zhengyi, Luo, Yancheng, Chen, Chong, Feng, Fuli, Tian, Qi, Bao, Keqin, Zhang, Jizhi, Wang, Wenjie, Zhang, Yang, Yang, Zhengyi, Luo, Yancheng, Chen, Chong, Feng, Fuli, and Tian, Qi

Abstract

As the focus on Large Language Models (LLMs) in the field of recommendation intensifies, the optimization of LLMs for recommendation purposes (referred to as LLM4Rec) assumes a crucial role in augmenting their effectiveness in providing recommendations. However, existing approaches for LLM4Rec often assess performance using restricted sets of candidates, which may not accurately reflect the models' overall ranking capabilities. In this paper, our objective is to investigate the comprehensive ranking capacity of LLMs and propose a two-step grounding framework known as BIGRec (Bi-step Grounding Paradigm for Recommendation). It initially grounds LLMs to the recommendation space by fine-tuning them to generate meaningful tokens for items and subsequently identifies appropriate actual items that correspond to the generated tokens. By conducting extensive experiments on two datasets, we substantiate the superior performance, capacity for handling few-shot scenarios, and versatility across multiple domains exhibited by BIGRec. Furthermore, we observe that the marginal benefits derived from increasing the quantity of training samples are modest for BIGRec, implying that LLMs possess the limited capability to assimilate statistical information, such as popularity and collaborative filtering, due to their robust semantic priors. These findings also underline the efficacy of integrating diverse statistical information into the LLM4Rec framework, thereby pointing towards a potential avenue for future research. Our code and data are available at https://github.com/SAI990323/Grounding4Rec., Comment: 17 pages

Published

2023

45. ADRNet: A Generalized Collaborative Filtering Framework Combining Clinical and Non-Clinical Data for Adverse Drug Reaction Prediction

Author

Li, Haoxuan, Hu, Taojun, Xiong, Zetong, Zheng, Chunyuan, Feng, Fuli, He, Xiangnan, Zhou, Xiao-Hua, Li, Haoxuan, Hu, Taojun, Xiong, Zetong, Zheng, Chunyuan, Feng, Fuli, He, Xiangnan, and Zhou, Xiao-Hua

Abstract

Adverse drug reaction (ADR) prediction plays a crucial role in both health care and drug discovery for reducing patient mortality and enhancing drug safety. Recently, many studies have been devoted to effectively predict the drug-ADRs incidence rates. However, these methods either did not effectively utilize non-clinical data, i.e., physical, chemical, and biological information about the drug, or did little to establish a link between content-based and pure collaborative filtering during the training phase. In this paper, we first formulate the prediction of multi-label ADRs as a drug-ADR collaborative filtering problem, and to the best of our knowledge, this is the first work to provide extensive benchmark results of previous collaborative filtering methods on two large publicly available clinical datasets. Then, by exploiting the easy accessible drug characteristics from non-clinical data, we propose ADRNet, a generalized collaborative filtering framework combining clinical and non-clinical data for drug-ADR prediction. Specifically, ADRNet has a shallow collaborative filtering module and a deep drug representation module, which can exploit the high-dimensional drug descriptors to further guide the learning of low-dimensional ADR latent embeddings, which incorporates both the benefits of collaborative filtering and representation learning. Extensive experiments are conducted on two publicly available real-world drug-ADR clinical datasets and two non-clinical datasets to demonstrate the accuracy and efficiency of the proposed ADRNet. The code is available at https://github.com/haoxuanli-pku/ADRnet., Comment: RecSys '23

Published

2023

46. Information Retrieval Meets Large Language Models: A Strategic Report from Chinese IR Community

Author

Ai, Qingyao, Bai, Ting, Cao, Zhao, Chang, Yi, Chen, Jiawei, Chen, Zhumin, Cheng, Zhiyong, Dong, Shoubin, Dou, Zhicheng, Feng, Fuli, Gao, Shen, Guo, Jiafeng, He, Xiangnan, Lan, Yanyan, Li, Chenliang, Liu, Yiqun, Lyu, Ziyu, Ma, Weizhi, Ma, Jun, Ren, Zhaochun, Ren, Pengjie, Wang, Zhiqiang, Wang, Mingwen, Wen, Ji-Rong, Wu, Le, Xin, Xin, Xu, Jun, Yin, Dawei, Zhang, Peng, Zhang, Fan, Zhang, Weinan, Zhang, Min, Zhu, Xiaofei, Ai, Qingyao, Bai, Ting, Cao, Zhao, Chang, Yi, Chen, Jiawei, Chen, Zhumin, Cheng, Zhiyong, Dong, Shoubin, Dou, Zhicheng, Feng, Fuli, Gao, Shen, Guo, Jiafeng, He, Xiangnan, Lan, Yanyan, Li, Chenliang, Liu, Yiqun, Lyu, Ziyu, Ma, Weizhi, Ma, Jun, Ren, Zhaochun, Ren, Pengjie, Wang, Zhiqiang, Wang, Mingwen, Wen, Ji-Rong, Wu, Le, Xin, Xin, Xu, Jun, Yin, Dawei, Zhang, Peng, Zhang, Fan, Zhang, Weinan, Zhang, Min, and Zhu, Xiaofei

Abstract

The research field of Information Retrieval (IR) has evolved significantly, expanding beyond traditional search to meet diverse user information needs. Recently, Large Language Models (LLMs) have demonstrated exceptional capabilities in text understanding, generation, and knowledge inference, opening up exciting avenues for IR research. LLMs not only facilitate generative retrieval but also offer improved solutions for user understanding, model evaluation, and user-system interactions. More importantly, the synergistic relationship among IR models, LLMs, and humans forms a new technical paradigm that is more powerful for information seeking. IR models provide real-time and relevant information, LLMs contribute internal knowledge, and humans play a central role of demanders and evaluators to the reliability of information services. Nevertheless, significant challenges exist, including computational costs, credibility concerns, domain-specific limitations, and ethical considerations. To thoroughly discuss the transformative impact of LLMs on IR research, the Chinese IR community conducted a strategic workshop in April 2023, yielding valuable insights. This paper provides a summary of the workshop's outcomes, including the rethinking of IR's core values, the mutual enhancement of LLMs and IR, the proposal of a novel IR technical paradigm, and open challenges., Comment: 17 pages

Published

2023

47. Recommendation Unlearning via Influence Function

Author

Zhang, Yang, Hu, Zhiyu, Bai, Yimeng, Feng, Fuli, Wu, Jiancan, Wang, Qifan, He, Xiangnan, Zhang, Yang, Hu, Zhiyu, Bai, Yimeng, Feng, Fuli, Wu, Jiancan, Wang, Qifan, and He, Xiangnan

Abstract

Recommendation unlearning is an emerging task to serve users for erasing unusable data (e.g., some historical behaviors) from a well-trained recommender model. Existing methods process unlearning requests by fully or partially retraining the model after removing the unusable data. However, these methods are impractical due to the high computation cost of full retraining and the highly possible performance damage of partial training. In this light, a desired recommendation unlearning method should obtain a similar model as full retraining in a more efficient manner, i.e., achieving complete, efficient and innocuous unlearning. In this work, we propose an Influence Function-based Recommendation Unlearning (IFRU) framework, which efficiently updates the model without retraining by estimating the influence of the unusable data on the model via the influence function. In the light that recent recommender models use historical data for both the constructions of the optimization loss and the computational graph (e.g., neighborhood aggregation), IFRU jointly estimates the direct influence of unusable data on optimization loss and the spillover influence on the computational graph to pursue complete unlearning. Furthermore, we propose an importance-based pruning algorithm to reduce the cost of the influence function. IFRU is innocuous and applicable to mainstream differentiable models. Extensive experiments demonstrate that IFRU achieves more than250times acceleration compared to retraining-based methods with recommendation performance comparable to full retraining., Comment: 23 pages, 7 figures

Published

2023

48. Leveraging Watch-time Feedback for Short-Video Recommendations: A Causal Labeling Framework

Author

Zhang, Yang, Bai, Yimeng, Chang, Jianxin, Zang, Xiaoxue, Lu, Song, Lu, Jing, Feng, Fuli, Niu, Yanan, Song, Yang, Zhang, Yang, Bai, Yimeng, Chang, Jianxin, Zang, Xiaoxue, Lu, Song, Lu, Jing, Feng, Fuli, Niu, Yanan, and Song, Yang

Abstract

With the proliferation of short video applications, the significance of short video recommendations has vastly increased. Unlike other recommendation scenarios, short video recommendation systems heavily rely on feedback from watch time. Existing approaches simply treat watch time as a direct label, failing to effectively harness its extensive semantics and introduce bias, thereby limiting the potential for modeling user interests based on watch time. To overcome this challenge, we propose a framework named Debiased Multiple-semantics-extracting Labeling(DML). DML constructs labels that encompass various semantics by utilizing quantiles derived from the distribution of watch time, prioritizing relative order rather than absolute label values. This approach facilitates easier model learning while aligning with the ranking objective of recommendations. Furthermore, we introduce a method inspired by causal adjustment to refine label definitions, thereby directly mitigating bias at the label level. We substantiate the effectiveness of our DML framework through both online and offline experiments. Extensive results demonstrate that our DML could effectively leverage watch time to discover users' real interests, enhancing their engagement in our application., Comment: 8 pages, 4 figures

Published

2023

49. Mitigating Spurious Correlations for Self-supervised Recommendation

Author

Lin, Xinyu, Xu, Yiyan, Wang, Wenjie, Zhang, Yang, Feng, Fuli, Lin, Xinyu, Xu, Yiyan, Wang, Wenjie, Zhang, Yang, and Feng, Fuli

Abstract

Recent years have witnessed the great success of self-supervised learning (SSL) in recommendation systems. However, SSL recommender models are likely to suffer from spurious correlations, leading to poor generalization. To mitigate spurious correlations, existing work usually pursues ID-based SSL recommendation or utilizes feature engineering to identify spurious features. Nevertheless, ID-based SSL approaches sacrifice the positive impact of invariant features, while feature engineering methods require high-cost human labeling. To address the problems, we aim to automatically mitigate the effect of spurious correlations. This objective requires to 1) automatically mask spurious features without supervision, and 2) block the negative effect transmission from spurious features to other features during SSL. To handle the two challenges, we propose an invariant feature learning framework, which first divides user-item interactions into multiple environments with distribution shifts and then learns a feature mask mechanism to capture invariant features across environments. Based on the mask mechanism, we can remove the spurious features for robust predictions and block the negative effect transmission via mask-guided feature augmentation. Extensive experiments on two datasets demonstrate the effectiveness of the proposed framework in mitigating spurious correlations and improving the generalization abilities of SSL models. The code is available at https://github.com/Linxyhaha/IFL., Comment: Accepted by Machine Intelligence Research 2023. (MIR paper link https://link.springer.com/article/10.1007/s11633-022-1374-8)

Published

2022

50. Unbiased Knowledge Distillation for Recommendation

Author

Chen, Gang, Chen, Jiawei, Feng, Fuli, Zhou, Sheng, He, Xiangnan, Chen, Gang, Chen, Jiawei, Feng, Fuli, Zhou, Sheng, and He, Xiangnan

Abstract

As a promising solution for model compression, knowledge distillation (KD) has been applied in recommender systems (RS) to reduce inference latency. Traditional solutions first train a full teacher model from the training data, and then transfer its knowledge (\ie \textit{soft labels}) to supervise the learning of a compact student model. However, we find such a standard distillation paradigm would incur serious bias issue -- popular items are more heavily recommended after the distillation. This effect prevents the student model from making accurate and fair recommendations, decreasing the effectiveness of RS. In this work, we identify the origin of the bias in KD -- it roots in the biased soft labels from the teacher, and is further propagated and intensified during the distillation. To rectify this, we propose a new KD method with a stratified distillation strategy. It first partitions items into multiple groups according to their popularity, and then extracts the ranking knowledge within each group to supervise the learning of the student. Our method is simple and teacher-agnostic -- it works on distillation stage without affecting the training of the teacher model. We conduct extensive theoretical and empirical studies to validate the effectiveness of our proposal. We release our code at: https://github.com/chengang95/UnKD.

Published

2022