Peeling Back the Layers: An In-Depth Evaluation of Encoder Architectures in Neural News Recommenders
October 02, 2024 Β· Declared Dead Β· π INRA@RecSys
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Authors
Andreea Iana, Goran GlavaΕ‘, Heiko Paulheim
arXiv ID
2410.01470
Category
cs.IR: Information Retrieval
Cross-listed
cs.AI
Citations
3
Venue
INRA@RecSys
Last Checked
4 months ago
Abstract
Encoder architectures play a pivotal role in neural news recommenders by embedding the semantic and contextual information of news and users. Thus, research has heavily focused on enhancing the representational capabilities of news and user encoders to improve recommender performance. Despite the significant impact of encoder architectures on the quality of news and user representations, existing analyses of encoder designs focus only on the overall downstream recommendation performance. This offers a one-sided assessment of the encoders' similarity, ignoring more nuanced differences in their behavior, and potentially resulting in sub-optimal model selection. In this work, we perform a comprehensive analysis of encoder architectures in neural news recommender systems. We systematically evaluate the most prominent news and user encoder architectures, focusing on their (i) representational similarity, measured with the Central Kernel Alignment, (ii) overlap of generated recommendation lists, quantified with the Jaccard similarity, and (iii) the overall recommendation performance. Our analysis reveals that the complexity of certain encoding techniques is often empirically unjustified, highlighting the potential for simpler, more efficient architectures. By isolating the effects of individual components, we provide valuable insights for researchers and practitioners to make better informed decisions about encoder selection and avoid unnecessary complexity in the design of news recommenders.
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