Table of Contents

• Enhancing the Maintainability of the Bio2RDF Project Using Declarative MappingsAna Iglesias-Molina, David Chaves-Fraga, Freddy Priyatna, Óscar Corcho. 1-10 [doi]
• Suggesting Reasonable Phenotypes to CliniciansLaura Slaughter, Dag Hovland. 11-19 [doi]
• A FHIR-to-RDF ConverterGerhard Kober, Adrian Paschke. 20-25 [doi]
• A Framework for Representing Clinical Research in FHIRHugo Leroux, Christine K. Denney, Smita Hastak, Hugh Glover. 26-35 [doi]
• Reconciling Author Names in Taxonomic and Publication DatabasesRoderic D. M. Page. 36-43 [doi]
• On Bringing Bioimaging Data into the Open (World)Josh Moore, Norio Kobayashi, Susanne Kunis, Shuichi Onami, Jason R. Swedlow. 44-53 [doi]
• Making Clinical Trials available at the Point of Care - connecting Clinical Trials to Electronic Health Records using SNOMED CT and HL7 InfoButton StandardsJay Kola, Wai Keong Wong, Bhavana Buddala. 54-63 [doi]
• A Blueprint for Semantically Lifting Field Trial Data: Enabling Exploration using Knowledge GraphsDaniel Burkow, Jens Hollunder, Julian Heinrich, Fuad Abdallah, Miguel A. Rojas-Macias, Cord Wiljes, Philipp Cimiano, Philipp Senger. 64-73 [doi]
• Documentation Gap in Ontology Creation: Insights into the Reality of Knowledge Formalization in a Life Science CompanyMarius Michaelis, Olga Streibel. 74-83 [doi]
• Partitioning of BioPortal Ontologies: An Empirical StudyAlsayed Algergawy, Birgitta König-Ries. 84-93 [doi]
• Annotation of Existing Databases using Semantic Web Technologies: Making Data more FAIRJohan Van Soest, Ananya Choudhury, Nikhil Gaikwad, Matthijs Sloep, Michel Dumontier, Andre Dekker. 94-101 [doi]
• FAIRness of openEHR Archetypes and TemplatesCaroline Bönisch, Anneka Sargeant, Antje Wulff, Marcel Parciak, Christian R. Bauer, Ulrich Sax. 102-111 [doi]
• A Working Semantic Model for the Integration of Occupation, Function and HealthAnil Adisesh, Hongchang Bao, Mohammad Sadnan Al Manir, Christopher J. O. Baker. 112-121 [doi]
• FAIR Quantitative Imaging in Oncology: how Semantic Web and Ontologies will support Reproducible ScienceAlberto Traverso, Zhenwei Shi, Leonard Wee, Andre Dekker. 122-126 [doi]
• Realizing FAIR Data in an Enterprise EnvironmentMelanie Hackl, Gökhan Coskun. 127-130 [doi]
• Semi-Automated Data-Driven Methods to Support Ontology Development: A Case Study on a Rehabilitation Therapy OntologyMohammad K. Halawani, Rob Forsyth, Phillip Lord. 131-132 [doi]
• Mapping Subjects and Domains across the Humanities and Natural Sciences in FAIRsharingAllyson L. Lister, Peter McQuilton, Milo Thurston, Susanna-Assunta Sansone. 133-134 [doi]
• Babylon Health's Medical Knowledge Graph: Why, What, and HowClaudia Schulz 0001, Damir Juric, Jetendr Shamdasani, Martin Coste, Szymon Wartak, Aleksandar Savkov, Nils Hammerla, Mohammad Khodadadi. 135-136 [doi]
• Implementing FAIR Principles in InterMineDaniela Butano, Justin Clark-Casey, Sergio Contrino, Joshua Heimbach, Rachel Lyne, Kevin Herald Reierskog, Julie M. Sullivan, Yo Yehudi, Gos Micklem. 137-138 [doi]
• MOLGENIS Catalogue - towards a Unified Application for Data and Sample CataloguesAlexander Kellmann, David van Enckevort, Marije van der Geest, Aneas Hodselmans, Morris A. Swertz. 139-140 [doi]
• Transformation and Integration of Heterogeneous Health Data in a Privacy-preserving Distributed Learning InfrastructureChang Sun, Vincent Emonet, Johan Van Soest, Annemarie Koster, Andre Dekker, Michel Dumontier. 141-142 [doi]
• Publishing Linked and FAIR-compliant Radiomics Data in Radiation Oncology via Ontologies and Semantic Web TechniquesAlberto Traverso, Martin Vallières, Johan Van Soest, Leonard Wee, Olivier Morin, Andre Dekker. 143-144 [doi]
• Ontology Mapping for the Laboratory Analytics DomainIan Harrow, Thomas Liener, Ernesto Jiménez-Ruiz. 145-146 [doi]
• Semantic Integration of Intrinsically Disordered Proteins and Existing DBsAtsuko Yamaguchi, Hideki Hatanaka, Satoshi Fukuchi, Motonori Ota. 147-148 [doi]
• OME Core Ontology: An OWL-based Life Science Imaging Data ModelNorio Kobayashi, Josh Moore, Shuichi Onami, Jason R. Swedlow. 149-150 [doi]
• UmakaData Extension: Toward Realization of a Practical SPARQL Endpoint Discovery Service for Life SciencesNorio Kobayashi, Yasunori Yamamoto, Atsuko Yamaguchi. 151-152 [doi]
• The 4DN-OME Ontology: an OME-OWL Extension with Emphasis on Usability, Minimum Information Guidelines and Quality Control for Super-resolution Fluorescence MicroscopyMathias Hammer, Alessandro Rigano, Farzin Farzam, Maximiliaan Huisman, David Grunwald, Caterina Strambio-De-Castillia. 153-154 [doi]
• A Modular Approach to Knowledge Graphs and FAIR Data in HealthcareMatthijs Sloep, Petros Kalendralis, Johan Van Soest, Rianne Fijten. 155-156 [doi]
• Finding RDF Data you need by Umaka SuiteYasunori Yamamoto, Atsuko Yamaguchi. 157-158 [doi]
• Species Association Knowledge Graph Construction - A Demo PaperDina Sharafeldeen, Alsayed Algergawy, Birgitta König-Ries. 159-160 [doi]
• Med2RDF: Semantic Biomedical Knowledge-base and APIs for the Clinical Genome MedicineMayumi Kamada, Toshiaki Katayama, Shuichi Kawashima, Ryosuke Kojima, Masahiko Nakatsui, Yasushi Okuno. 161-162 [doi]
• MetaStanza: Generic WebComponents Widgets for Visualizing SPARQL Results on the WebToshiaki Katayama. 163-164 [doi]
• Integrated Growth Media Database by Standardizing Ingredient InformationShuichi Kawashima, Toshiaki Katayama, Yuki Moriya, Shinobu Okamoto, Yasunori Yamamoto, Susumu Goto. 165-166 [doi]
• SemanticGenomeGraphsSimon Heumos, Jerven T. Bolleman. 167-168 [doi]
• Network Building with Cytoscape App Queries to the BioGateway 3.0 Triple StoreStian Holmås, Vladimir Mironov, Martin Kuiper. 169-170 [doi]