Orthogonal Low Rank Embedding Stabilization
August 11, 2025 Β· Declared Dead Β· π ACM Conference on Recommender Systems
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Authors
Kevin Zielnicki, Ko-Jen Hsiao
arXiv ID
2508.07574
Category
cs.IR: Information Retrieval
Citations
1
Venue
ACM Conference on Recommender Systems
Last Checked
4 months ago
Abstract
The instability of embedding spaces across model retraining cycles presents significant challenges to downstream applications using user or item embeddings derived from recommendation systems as input features. This paper introduces a novel orthogonal low-rank transformation methodology designed to stabilize the user/item embedding space, ensuring consistent embedding dimensions across retraining sessions. Our approach leverages a combination of efficient low-rank singular value decomposition and orthogonal Procrustes transformation to map embeddings into a standardized space. This transformation is computationally efficient, lossless, and lightweight, preserving the dot product and inference quality while reducing operational burdens. Unlike existing methods that modify training objectives or embedding structures, our approach maintains the integrity of the primary model application and can be seamlessly integrated with other stabilization techniques.
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