Bibtex de la publication

@InProceedings{ Ng2016.1,
author = {Nguyen, Gia Hung and Tamine, Lynda and Soulier, Laure and Souf, Nathalie},
title = "{Toward a Deep Neural Approach for Knowledge-Based IR (poster)}",
booktitle = "{Workshop on Neural Information Retrieval, in conjunction with the ACM SIGIR Conference (NEU-IR 2016), Pisa, Italy, 21/07/16-21/07/16}",
year = {2016},
month = {juillet},
publisher = {ACM : Association for Computing Machinery},
address = {},
pages = {(on line)},
language = {anglais},
URL = {,%20 -},
keywords = {Ad-hoc IR, knowledge-base, deep neural architecture},
abstract = {This paper tackles the problem of the semantic gap between a document and a query within an ad-hoc information retrieval task. In this context, knowledge bases (KBs) have already been acknowledged as valuable means since they allow the representation of explicit relations between entities. However, they do not necessarily represent implicit relations that could be hidden in a corpora. This latter issue is tackled by recent works dealing with deep representation learn ing of texts. With this in mind, we argue that embedding KBs within deep neural architectures supporting documentquery matching would give rise to fine-grained latent representations of both words and their semantic relations. In this paper, we review the main approaches of neural-based document ranking as well as those approaches for latent representation of entities and relations via KBs. We then propose some avenues to incorporate KBs in deep neural approaches for document ranking. More particularly, this paper advocates that KBs can be used either to support enhanced latent representations of queries and documents based on both distributional and relational semantics or to serve as a semantic translator between their latent distributional representations.}