Auto-Encoding User Ratings via Knowledge Graphs in Recommendation Scenarios

Auto-Encoding User Ratings via Knowledge Graphs in Recommendation Scenarios

Proceedings of the 2Nd Workshop on Deep Learning for Recommender Systems - -2017

Authors

Bellini Vito, Anelli Vito Walter, Di Noia Tommaso, Di Sciascio Eugenio

Abstract

In the last decade, driven also by the availability of an unprecedented computational power and storage capabilities in cloud environments we assisted to the proliferation of new algorithms, methods, and approaches in two areas of artificial intelligence: knowledge representation and machine learning. On the one side, the generation of a high rate of structured data on the Web led to the creation and publication of the so-called knowledge graphs. On the other side, deep learning emerged as one of the most promising approaches in the generation and training of models that can be applied to a wide variety of application fields. More recently, autoencoders have proven their strength in various scenarios, playing a fundamental role in unsupervised learning. In this paper, we instigate how to exploit the semantic information encoded in a knowledge graph to build connections between units in a Neural Network, thus leading to a new method, SEM-AUTO, to extract and weigh semantic features that can eventually be used to build a recommender system. As adding content-based side information may mitigate the cold user problems, we tested how our approach behave in the presence of a few rating from a user on the Movielens 1M dataset and compare results with BPRSLIM.

Download: Auto-Encoding User Ratings via Knowledge Graphs in Recommendation Scenarios.pdf

DOI

https://doi.org/10.1145/3125486.3125496

BibTex references

@InProceedings{BADD17,
  author       = "Bellini, Vito and Anelli, Vito Walter and Di Noia, Tommaso and Di Sciascio, Eugenio",
  title        = "Auto-Encoding User Ratings via Knowledge Graphs in Recommendation Scenarios",
  booktitle    = "Proceedings of the 2Nd Workshop on Deep Learning for Recommender Systems",
  series       = "DLRS 2017",
  pages        = "60--66",
  year         = "2017",
  publisher    = "ACM",
  keywords     = "Autoencoders, DBpedia, Deep Learning, Knowledge graphs, Linked Open Data, Recommender Systems",
  url          = "http://sisinflab.poliba.it/Publications/2017/BADD17"

}