Zero-shot Heterogeneous Transfer Learning From Recommender Systems To Cold-start Search Retrieval
2020 Β· Tao Wu, Ellie Ka-In Chio, Heng-Tze Cheng, et al.
Abstract
Many recent advances in neural information retrieval models, which predict top-K items given a query, learn directly from a large training set of (query, item) pairs. However, they are often insufficient when there are many previously unseen (query, item) combinations, often referred to as the cold start problem. Furthermore, the search system can be biased towards items that are frequently shown to a query previously, also known as the 'rich get richer' (a.k.a. feedback loop) problem. In light of these problems, we observed that most online content platforms have both a search and a recommender system that, while having heterogeneous input spaces, can be connected through their common output item space and a shared semantic representation. In this paper, we propose a new Zero-Shot Heterogeneous Transfer Learning framework that transfers learned knowledge from the recommender system component to improve the search component of a content platform. First, it learns representations of ite
Authors
(none)
Tags
Stats
Related papers
- Unified Semantic And ID Representation Learning For Deep Recommenders (2025)0.00
- Content-aware Neural Hashing For Cold-start Recommendation (2020)10.97
- Domain-adaptive And Scalable Dense Retrieval For Content-based Recommendation (2026)0.00
- Collaborative Generative Hashing For Marketing And Fast Cold-start Recommendation (2020)7.81
- Cost: Contrastive Quantization Based Semantic Tokenization For Generative Recommendation (2024)7.81
- Self-supervised Multi-modal Sequential Recommendation (2023)0.00
- SEMINAR: Search Enhanced Multi-modal Interest Network And Approximate Retrieval For Lifelong Sequential Recommendation (2024)0.00
- Zero-shot Retrieval For Scalable Visual Search In A Two-sided Marketplace (2025)1.57