Adaptive core-enhanced latent factor model for highly accurate QoS prediction
Siqi Ai, Peixin Li, Hao Fang, Yonghui Xia

TL;DR
This paper introduces a new model for predicting service quality that improves accuracy by learning complex interactions and adapting regularization during training.
Contribution
The novel ACELF model combines a learnable core interaction matrix with an adaptive PID-driven regularization strategy for QoS prediction.
Findings
ACELF outperforms state-of-the-art methods in QoS prediction accuracy on real-world datasets.
The learnable core interaction matrix captures complex user-service relationships beyond bilinear assumptions.
The adaptive PID regularization improves model robustness by balancing expressiveness and overfitting.
Abstract
Accurate prediction of Quality of Service (QoS) plays a crucial role in service recommendation and selection across large-scale distributed environments. Latent factor (LF) models have become a mainstream solution for QoS prediction owing to their simplicity and scalability, yet typical formulations struggle to capture complex latent interactions and usually rely on manually tuned regularization, which often limits prediction accuracy. To address these challenges, we propose an Adaptive Core-Enhanced Latent Factor (ACELF) model that integrates a learnable core interaction mechanism with an incremental Proportional-Integral-Derivative (PID)-driven adaptive regularization strategy. Specifically, a learnable core interaction matrix is introduced to model interactions between latent user and service factors, enabling richer representation learning beyond standard bilinear assumptions. To…
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Taxonomy
TopicsRecommender Systems and Techniques · Image and Video Quality Assessment · Caching and Content Delivery
