Title:
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Using offline metrics and user behavior analysis to combine multiple systems for music recommendation
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Author:
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Ferraro, Andrés; Bogdanov, Dmitry; Choi, Kyumin; Serra, Xavier
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Abstract:
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Comunicació presentada a: RecSys 2018 Workshop on Offline Evaluation of Recommender Systems, celebrada el 7 d'octubre del 2018 a Vancouver, Canadà. |
Abstract:
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There are many offline metrics that can be used as a reference for evaluation and optimization of the performance of recommender systems. Hybrid recommendation approaches are commonly used to improve some of those metrics by combining different systems. In this work we focus on music recommendation and propose a new way to improve recommendations, with respect to a desired metric of choice, by combining multiple systems for each user individually based on their expected performance. Essentially, our approach consists in predicting an expected error that each system will produce for each user based on their previous activity. To this end, we propose to train regression models for different metrics predicting the performance of each system based on a number of features characterizing previous user behavior in the system. We then use different fusion strategies to combine recommendations generated by each system. Following this approach one can optimize the final hybrid system with respect to the desired metric of choice. As a proof of concept, we conduct experiments combining two recommendation systems, a Matrix Factorization model and a popularity-based recommender. We use the data provided by Melon, a Korean music streaming service, to train and evaluate the performance of the systems. |
Abstract:
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This research has been supported by Kakao Corp., and partially funded by the European Unions Horizon 2020 research and innovation programme under grant agreement No 688382 (AudioCommons) and the Ministry of Economy and Competitiveness of the Spanish Government (Reference: TIN2015-69935-P). |
Subject(s):
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-Music recommender systems -Collaborative filtering -Estimation fusion -Rank fusion -User modeling -Offline evaluation |
Rights:
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This work is licensed under a “CC BY-NC-SA 3.0” license.
https://creativecommons.org/licenses/by/3.0/es/
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Document type:
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Conference Object Article - Published version |
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