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Time-aware recommender systems: a comprehensive survey and analysis of existing evaluation protocols

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Abstract

Exploiting temporal context has been proved to be an effective approach to improve recommendation performance, as shown, e.g. in the Netflix Prize competition. Time-aware recommender systems (TARS) are indeed receiving increasing attention. A wide range of approaches dealing with the time dimension in user modeling and recommendation strategies have been proposed. In the literature, however, reported results and conclusions about how to incorporate and exploit time information within the recommendation processes seem to be contradictory in some cases. Aiming to clarify and address existing discrepancies, in this paper we present a comprehensive survey and analysis of the state of the art on TARS. The analysis show that meaningful divergences appear in the evaluation protocols used—metrics and methodologies. We identify a number of key conditions on offline evaluation of TARS, and based on these conditions, we provide a comprehensive classification of evaluation protocols for TARS. Moreover, we propose a methodological description framework aimed to make the evaluation process fair and reproducible. We also present an empirical study on the impact of different evaluation protocols on measuring relative performances of well-known TARS. The results obtained show that different uses of the above evaluation conditions yield to remarkably distinct performance and relative ranking values of the recommendation approaches. They reveal the need of clearly stating the evaluation conditions used to ensure comparability and reproducibility of reported results. From our analysis and experiments, we finally conclude with methodological issues a robust evaluation of TARS should take into consideration. Furthermore we provide a number of general guidelines to select proper conditions for evaluating particular TARS.

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Notes

  1. A public test dataset used for evaluating performance of participants in the Netflix Prize competition.

  2. In this case it may be more precise to talk about score prediction, but for the sake of simplicity we will refer to this also as rating prediction.

  3. http://www.merriam-webster.com/dictionary/time

  4. There is no general definition of what good recommendations are. Nonetheless, a commonly used approach is to establish the quality (goodness) of recommendations by computing different metrics that assess various desired characteristics of a RS output.

  5. We abuse of the notation by denoting as \(t(e)\) the function returning the time of event \(e\), and denoting as \(t\) a particular value of \(T\).

  6. For the sake of simplicity we consider latent factors vectors of the same size, but they can be of different size.

  7. These metrics are also referred to as usage prediction accuracy metrics (Gunawardana and Shani 2009) and classification accuracy metrics (Herlocker et al. 2004).

  8. In a strict sense, a user-centered split ensures that most users will have training and test data, but there may be some users without enough ratings for both training and test sets. This will depend not only on the number of ratings of each user, but also on the definition of other evaluation conditions like the size condition.

  9. Note that each user’s rating sequence \(Seq_u^{ti}\) is generated independently in case of using a user-centered base set condition.

  10. In case of ties, they could be broken by sorting the tied ratings by user_id. If still there are tied ratings, then they could be sorted by item_id (note that in real datasets it is possible to find users with several ratings with the same timestamp due to, e.g. inconsistencies in the log subsystem).

  11. In case of a non-integer size value, it could be rounded to the nearest integer value.

  12. In this work we use a pure collaborative filtering approach for the music recommendation domain. Content-based approaches—exploiting special characteristics of music, such as chord, melody, lyrics, and composer—could be used instead, but they fall out of the scope of this study.

  13. MovieLens movie recommendations, http://movielens.umn.edu

  14. Neflix on-demand video streaming, http://www.netflix.com

  15. Last.fm Internet radio, http://www.lastfm.es

  16. These differences are statistically significant (Wilcoxon p \(<\) 0.05).

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Acknowledgments

This work was supported by the Spanish Government (TIN2011-28538-C02), and by Comunidad Autónoma de Madrid and Universidad Autónoma de Madrid (CCG10-UAM/TIC-5877). The authors thank Centro de Computación Científica at UAM for its technical support. The authors also thank the anonymous reviewers for their valuable comments and suggestions.

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Campos, P.G., Díez, F. & Cantador, I. Time-aware recommender systems: a comprehensive survey and analysis of existing evaluation protocols. User Model User-Adap Inter 24, 67–119 (2014). https://doi.org/10.1007/s11257-012-9136-x

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