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Generating post hoc review-based natural language justifications for recommender systems

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Abstract

In this article, we present a framework to build post hoc natural language justifications that supports the suggestions generated by a recommendation algorithm. Our methodology is based on the intuition that reviews’ excerpts contain much relevant information that can be used to justify a recommendation; thus, we propose a black-box explanation strategy that takes as input a recommended item and a set of reviews and builds as output a post hoc natural language justification which is completely independent of the underlying recommendation model. To validate our claims, we also introduce three different implementations of our conceptual framework: the first one uses natural language processing and sentiment analysis techniques to identify relevant and distinguishing aspects discussed in the reviews and combines reviews’ excerpts mentioning these aspects in a natural language justification which is presented to the target user. The second implementation extends the first one by introducing automatic aspect extraction and text summarization, which are exploited to generate a unique synthesis presenting the main characteristics of the item that is used as justification. Finally, the third implementation tackles the problem of generating a context-aware justification, that is to say, a justification that differs on varying of the different contextual situations, by automatically learning a lexicon for each contextual setting and by using such a lexicon to diversify the justifications. In the experimental evaluation, we carried out three user studies in different domains, and the results showed that our methodology is able to make the recommendation process more transparent, engaging and trustful for the users, thus confirming the validity of the intuitions behind this work.

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Notes

  1. http://ec.europa.eu/justice/data-protection/reform/files/regulation_oj_en.pdf.

  2. https://tripadvisor.mediaroom.com/us.

  3. http://expandedramblings.com/index.php/yelp-statistics/3/.

  4. https://www.rottentomatoes.com/m/ring.

  5. It is worth to note that this aspect is neither investigated nor evaluated in the current research, and it is left for future work.

  6. As previously stated, we will investigate the algorithmic-independent nature of the methodology as a future work, by evaluating the effectiveness of the justifications on varying of the different algorithms used to generate the recommendations.

  7. A discussion about the available grammatical categories is out of scope to this paper. However, one of the most popular tagsets, the Penn Treebank tagset, contains 36 categories for words. We suggest to refer to Marcus et al. (1994) for further reading about POS tagging.

  8. Sentences conveying a neutral opinion were ignored. More details about the sentiment analysis algorithm used in the pipeline are provided in the next section.

  9. As the IDF calculates the number of documents that contain a term, the IAF counts the number of items in which at least one review discusses the aspect a. The lower the number, the higher the IAF score.

  10. In the experimental evaluation, we compared two different templates including different number of aspects. For the sake of simplicity, we just report one of them since they differ in a small portion of the grammar.

  11. https://en.wikipedia.org/wiki/Backus-Naur_form.

  12. http://www.natcorp.ox.ac.uk/.

  13. Actually, this problem is common to almost every approach to generate explanations that has been presented in the literature so far.

  14. Actually, one of the experiments discussed in the next section evaluates the impact of more complex generation strategies, that is to say, text summarization techniques. In this case, we decided to use a basic template-based structure instead of a more sophisticated generation in order to have a higher control and understanding on the outcomes of the experiments. Rather than changing two modules, that is to say, Aspect Extraction and Generation, we preferred to maintain the same generation phase of the NLP-Pipeline and we just changed the strategy for Aspect Extraction and Ranking by making it context-aware.

  15. https://tinyurl.com/review-based-justifications.

  16. http://sisinflab.poliba.it/semanticweb/lod/recsys/datasets/.

  17. http://jmcauley.ucsd.edu/data/amazon/links.html - Only the reviews available in the ‘Movies and TV’ and ‘Books’ categories were downloaded.

  18. Acronym for Amazon Standard Identification Number - https://en.wikipedia.org/wiki/Amazon_Standard_Identification_Number.

  19. https://tinyurl.com/review-data-uniba.

  20. http://jung.sourceforge.net/.

  21. https://stanfordnlp.github.io/CoreNLP/.

  22. https://nlp.stanford.edu/sentiment/.

  23. The platform is available online and the experimental protocol can be still run.

  24. https://tinyurl.com/uniba-expl-summarizer.

  25. https://github.com/gaetangate/text-summarizer.

  26. Of course, as future work, we will plan to evaluate the effectiveness of context-aware justifications for Movie and Books recommendation, as well.

  27. https://itfra.github.io/ - available only in Italian.

  28. https://www.yelp.com/fusion.

  29. https://developer-tripadvisor.com/content-api/.

  30. https://tinyurl.com/restaurants-review-data-uniba.

  31. http://www.italianlp.it/demo/linguistic-annotation-tool/.

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  1. Department of Computer Science, University of Bari ‘Aldo Moro’, Bari, Italy

    Cataldo Musto, Marco de Gemmis, Pasquale Lops & Giovanni Semeraro

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Musto, C., de Gemmis, M., Lops, P. et al. Generating post hoc review-based natural language justifications for recommender systems. User Model User-Adap Inter 31, 629–673 (2021). https://doi.org/10.1007/s11257-020-09270-8

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