SWAT4HCLS 2019 Semantic Web Applications and Tools for Health Care and Life Sciences
- Event
- 12th International Conference on Semantic Web Applications and Tools for Health Care and Life Sciences
- Location
- Edinburgh, Scotland
- Date
- to
Table of Contents
- Preface
-
Enhancing the Maintainability of the Bio2RDF Project Using Declarative Mappings
- Pages
- 1 – 10
-
Suggesting Reasonable Phenotypes to Clinicians
- Pages
- 11 – 19
-
A FHIR-to-RDF Converter
- Pages
- 20 – 25
-
A Framework for Representing Clinical Research in FHIR
- Pages
- 26 – 35
-
Reconciling Author Names in Taxonomic and Publication Databases
- Pages
- 36 – 43
-
On Bringing Bioimaging Data into the Open (World)
- Pages
- 44 – 53
-
Making Clinical Trials available at the Point of Care - connecting Clinical Trials
to Electronic Health Records using SNOMED CT and HL7 InfoButton Standards
- Pages
- 54 – 63
-
A Blueprint for Semantically Lifting Field Trial Data: Enabling Exploration using
Knowledge Graphs
- Pages
- 64 – 73
-
Documentation Gap in Ontology Creation: Insights into the Reality of Knowledge Formalization
in a Life Science Company
- Pages
- 74 – 83
-
Partitioning of BioPortal Ontologies: An Empirical Study
- Pages
- 84 – 93
-
Annotation of Existing Databases using Semantic Web Technologies: Making Data more
FAIR
- Pages
- 94 – 101
-
FAIRness of openEHR Archetypes and Templates
- Pages
- 102 – 111
-
A Working Semantic Model for the Integration of Occupation, Function and Health
- Pages
- 112 – 121
-
FAIR Quantitative Imaging in Oncology: how Semantic Web and Ontologies will support
Reproducible Science
- Pages
- 122 – 126
-
Realizing FAIR Data in an Enterprise Environment
- Pages
- 127 – 130
-
Semi-Automated Data-Driven Methods to Support Ontology Development: A Case Study on
a Rehabilitation Therapy Ontology
- Pages
- 131 – 132
-
Mapping Subjects and Domains across the Humanities and Natural Sciences in FAIRsharing
- Pages
- 133 – 134
-
Babylon Health's Medical Knowledge Graph: Why, What, and How
- Pages
- 135 – 136
-
Implementing FAIR Principles in InterMine
- Pages
- 137 – 138
-
MOLGENIS Catalogue - towards a Unified Application for Data and Sample Catalogues
- Pages
- 139 – 140
-
Transformation and Integration of Heterogeneous Health Data in a Privacy-preserving
Distributed Learning Infrastructure
- Pages
- 141 – 142
-
Publishing Linked and FAIR-compliant Radiomics Data in Radiation Oncology via Ontologies
and Semantic Web Techniques
- Pages
- 143 – 144
-
Ontology Mapping for the Laboratory Analytics Domain
- Pages
- 145 – 146
-
Semantic Integration of Intrinsically Disordered Proteins and Existing DBs
- Pages
- 147 – 148
-
OME Core Ontology: An OWL-based Life Science Imaging Data Model
- Pages
- 149 – 150
-
UmakaData Extension: Toward Realization of a Practical SPARQL Endpoint Discovery Service
for Life Sciences
- Pages
- 151 – 152
-
The 4DN-OME Ontology: an OME-OWL Extension with Emphasis on Usability, Minimum Information
Guidelines and Quality Control for Super-resolution Fluorescence Microscopy
- Pages
- 153 – 154
-
A Modular Approach to Knowledge Graphs and FAIR Data in Healthcare
- Pages
- 155 – 156
-
Finding RDF Data you need by Umaka Suite
- Pages
- 157 – 158
-
Species Association Knowledge Graph Construction - A Demo Paper
- Pages
- 159 – 160
-
Med2RDF: Semantic Biomedical Knowledge-base and APIs for the Clinical Genome Medicine
- Pages
- 161 – 162
-
MetaStanza: Generic WebComponents Widgets for Visualizing SPARQL Results on the Web
- Pages
- 163 – 164
-
Integrated Growth Media Database by Standardizing Ingredient Information
- Pages
- 165 – 166
-
SemanticGenomeGraphs
- Pages
- 167 – 168
-
Network Building with Cytoscape App Queries to the BioGateway 3.0 Triple Store
- Pages
- 169 – 170
We offer a BibTeX file for citing papers of this workshop from LaTeX.