*Apologies for cross-posting*

                                             Call For Papers
1st International Workshop on Deep Learning for Knowledge Graphs
                    and Semantic Technologies (DL4KGs)

In conjunction with ESWC 2018, 3rd-7th June 2018, Heraklion, Crete, Greece

                                             Workshop Overview
Semantic Web technologies and deep learning share the goal of creating 
intelligent artifacts that emulate human capacities such as reasoning, 
validating, and predicting. There are notable examples of contributions 
leveraging either deep neural architectures or distributed representations 
learned via deep neural networks in the broad area of Semantic Web 
technologies. Knowledge Graphs (KG) are one of the most well-known outcomes 
from the Semantic Web community, with wide use in web search, text 
classification, entity linking etc. KGs are large networks of real-world 
entities described in terms of their semantic types and their relationships to 
each other. Most famous examples of KGs are: DBpedia, Wikidata and Yago.

A challenging but paramount task for problems ranging from entity 
classification to entity recommendation or entity linking is that of learning 
features representing entities in the knowledge graph (building knowledge graph 
embeddings ) that can be fed into machine learning algorithms. The feature 
learning process ought to be able to effectively capture the relational 
structure of the graph (i.e. connectivity patterns) as well as the semantics of 
its properties and classes, either in an unsupervised way and/or in a 
supervised way to optimize a downstream prediction task. In the past years, 
Deep Learning (DL) algorithms have been used to learn features from knowledge 
graphs, resulting in enhancements of the state-of-the-art in entity relatedness 
measures, entity recommendation systems and entity classification. DL 
algorithms have equally been applied to classic problems in semantic 
applications, such as (semi-automated) ontology learning, ontology alignment, 
duplicate re!
 cognition, ontology prediction, relation extraction, and semantically grounded 

                                                 Topics of Interest
Topics of interest for this first workshop on Deep Learning for Knowledge 
Graphs and Semantic Technologies, include but are not limited to the following 
fields and problems:
Knowledge graph embeddings for entity linking, recommendation, relatedness
Knowledge graph embeddings for link prediction and validation
Time-aware and scalable knowledge graph embeddings
Text-based entity embeddings vs knowledge graph entity embeddings
Deep learning models for learning knowledge representations from text
Knowledge graph agnostic embeddings
Knowledge Base Completion
Type Inference
Question Answering
Domain Specific Knowledge Base Construction
Reasoning over KGs and with deep learning methods
Neural networks and logic rules for semantic compositionality
Quality checking and Data cleaning
Multilingual resources for neural representations of linguistics
Commonsense reasoning and vector space models
Deep ontology learning
Deep learning ontological annotations
Applications of knowledge graph embeddings in real business scenarios

                                                Important  Dates
Submission deadline:                Friday March 16, 2018
Notification of Acceptance:        Tuesday April 17, 2018
Camera-ready Submission:       Tuesday April 24, 2018

                                                 WORKSHOP CO-CHAIRS

Michael Cochez, Fraunhofer Institute for Applied Information Technology, Germany
Thierry Declerck, DFKI GmbH, Germany
Gerard de Melo, Rutgers University, USA
Luis Espinosa Anke, Cardiff University, UK
Besnik Fetahu, L3S Research Center, Leibniz University of Hannover, Germany
Dagmar Gromann, Technical University Dresden, Germany
Mayank Kejriwal, Information Sciences Institute, USA
Maria Koutraki, FIZ-Karlsruhe, Karlsruhe Institute of Technology (KIT), Germany
Freddy Lecue, Accenture Technology Labs, Ireland; INRIA, France
Enrico Palumbo, ISMB, Italy; EURECOM, France; Politecnico di Torino, Italy
Harald Sack, FIZ Karlsruhe, Karlsruhe Institute of Technology (KIT), Germany

More information about DL4KGs 2018 is available at: 

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