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A Dual Input-aware Factorization Machine for CTR Prediction

Wantong Lu, Yantao Yu, Yongzhe Chang, Zhen Wang, Chenhui Li, Bo Yuan

202077 citationsDOIOpen Access PDF

Abstract

Factorization Machines (FMs) refer to a class of general predictors working with real valued feature vectors, which are well-known for their ability to estimate model parameters under significant sparsity and have found successful applications in many areas such as the click-through rate (CTR) prediction. However, standard FMs only produce a single fixed representation for each feature across different input instances, which may limit the CTR model’s expressive and predictive power. Inspired by the success of Input-aware Factorization Machines (IFMs), which aim to learn more flexible and informative representations of a given feature according to different input instances, we propose a novel model named Dual Input-aware Factorization Machines (DIFMs) that can adaptively reweight the original feature representations at the bit-wise and vector-wise levels simultaneously. Furthermore, DIFMs strategically integrate various components including Multi-Head Self-Attention, Residual Networks and DNNs into a unified end-to-end model. Comprehensive experiments on two real-world CTR prediction datasets show that the DIFM model can outperform several state-of-the-art models consistently.

Topics & Concepts

Computer scienceFactorizationFeature (linguistics)Artificial intelligenceResidualDual (grammatical number)Representation (politics)Machine learningFeature engineeringMatrix decompositionPattern recognition (psychology)AlgorithmDeep learningQuantum mechanicsPhysicsLawArtEigenvalues and eigenvectorsLinguisticsPoliticsPolitical scienceLiteraturePhilosophyRecommender Systems and TechniquesCaching and Content DeliveryImage and Video Quality Assessment
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