Mark A. Musen researcher, Stanford University
Musen, Mark A.
Musen, M.A.
Musen, Mark A., 19..-....
Musen, Mark A., 1956-
Musen, M.A. (Mark A.)
VIAF ID: 36476578 (Personal)
Permalink: http://viaf.org/viaf/36476578
Preferred Forms
- 100 0 _ ‡a Mark A. Musen ‡c researcher, Stanford University
- 200 _ | ‡a Musen ‡b Mark A.
- 100 1 _ ‡a Musen, M. A
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- 100 1 _ ‡a Musen, Mark A.
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- 100 1 _ ‡a Musen, Mark A.
- 100 1 _ ‡a Musen, Mark A.
- 100 1 _ ‡a Musen, Mark A., ‡d 19..-....
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4xx's: Alternate Name Forms (14)
Works
Title | Sources |
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Automated generation of model-based knowledge acquisition tools, 1989: | |
Biomedical and health informatics : from foundations to applications : the 27th annual symposium of the American Medical Informatics Association, November 8-12, 2003, Washington, DC | |
DataStorm : an ontology-driven framework for cloud-based data analyticsystems | |
An efficient approach to intelligent real-time monitoring : using ontologies and hadoop | |
Handbook of medical informatics, c1997: | |
Intelligent information processing : IFIP 17th world computer congress, TC12 stream on intelligent information processing, August 25-30, 2002, Montréal, Québec, Canada | |
Knowledge acquisition for knowledge-based systems : proceedings | |
The Protégé OWL Plugin: An Open Development Environment for Semantic Web Applications | |
The Protégé Project: A Look Back and a Look Forward | |
Representing the Digital Anatomist Foundational Model as a Protege Ontology | |
Representing the NCI Thesaurus in OWL DL: Modeling tools help modeling languages | |
Response of general practitioners to computer-generated critiques of hypertension therapy. | |
Reuse of the EON Architecture to Automate Protocol-Based Care: From AIDS to Breast Cancer | |
The road to professionalism in medical informatics: the role of training | |
The SAGE Guideline Model: achievements and overview | |
The SAGE guideline modeling: motivation and methodology. | |
Scalable software architectures for decision support. | |
Searching ontologies based on content | |
Semantic clinical guideline documents | |
Semantic infrastructure to enable collaboration in ontology development | |
The Semantic Web - ISWC 2005 : 4th International Semantic Web Conference, ISWC 2005, Galway, Ireland, November 6-10, 2005, Proceedings | |
Semantic Wiki Search | |
Semi-automated entry of clinical temporal-abstraction knowledge | |
The separation of reviewing knowledge from medical knowledge. | |
Sequential versus standard neural networks for pattern recognition: an example using the domain of coronary heart disease | |
Simplified OWL Ontology Editing for the Web: Is WebProtégé Enough? | |
Snap-SPARQL: A Java Framework for Working with SPARQL and OWL | |
Software-engineering challenges of building and deploying reusable problem solvers | |
Special issue: Reusing knowledge in intelligent systems | |
Standards-based Sharable Active Guideline Environment (SAGE): A Project to Develop a Universal Framework for Encoding and Disseminating Electronic Clinical Practice Guidelines. | |
Stanford Medical Informatics: uncommon research, common goals. | |
The structure of guideline recommendations: a synthesis | |
Support for information management in critical care: a new approach to identify needs | |
Supporting Rule System Interoperability on the Semantic Web with SWRL | |
SWRL-F | |
SYNCHRONUS: a reusable software module for temporal integration. | |
T-HELPER: automated support for community-based clinical research | |
T-Helper I: An Electronic Medical Record Supporting the Treatment of AIDS. | |
Task modeling with reusable problem-solving methods | |
Technology for building intelligent systems: from psychology to engineering. | |
Temporal-abstraction mechanisms in management of clinical protocols | |
Theater-Style Demonstration: EON: CORBA-Based Middleware for Automation of Protocol-Directed Therapy | |
Therapy planning as constraint satisfaction: a computer-based antiretroviral therapy advisor for the management of HIV | |
There's no theory better than that of a practical tool | |
Tool support for authoring eligibility criteria for cancer trials | |
Tools to facilitate the interchange and analysis of nontraditional health surveillance data | |
Toward a Harmonized WHO Family of International Classifications Content Model | |
Toward a science of learning systems: a research agenda for the high-functioning Learning Health System | |
Toward reusable software components at the point of care | |
Tracking Changes During Ontology Evolution | |
Translating research into practice: organizational issues in implementing automated decision support for hypertension in three medical centers | |
Traversing Ontologies to Extract Views | |
Understanding detection performance in public health surveillance: modeling aberrancy-detection algorithms | |
Understanding How Users Edit Ontologies: Comparing Hypotheses About Four Real-World Projects | |
Unified Medical Language System term occurrences in clinical notes: a large-scale corpus analysis | |
The Unified Problem-Solving Method Development Language UPML | |
Unleashing the value of Common Data Elements through the CEDAR Workbench | |
Use of a domain model to drive an interactive knowledge-editing tool | |
Use of declarative statements in creating and maintaining computer-interpretable knowledge bases for guideline-based care | |
Use of description logic classification to reason about consequences of penetrating injuries | |
Use of KADS to create a conceptual model of the ONCOCIN task | |
Use of ontology structure and Bayesian models to aid the crowdsourcing of ICD-11 sanctioning rules | |
Use of OWL and Semantic Web Technologies at Pinterest | |
Use of Protégé-2000 to Encode Clinical Guidelines. | |
User Extensible System to Identify Problems in OWL Ontologies and SWRL Rules | |
Using aggregate taxonomies to summarize SNOMED CT evolution | |
Using association rule mining and ontologies to generate metadata recommendations from multiple biomedical databases | |
Using ethnographic methods to classify the human experience in medicine: a case study of the presence ontology | |
Using ontologies linked with geometric models to reason about penetrating injuries | |
Using Ontologies to Drive the Creation of High-Quality Metadata in CEDAR | |
Using ontologies to model human navigation behavior in information networks: A study based on Wikipedia | |
Using semantic dependencies for consistency management of an ontology of brain-cortex anatomy | |
Using semantic technologies to enhance metadata submissions to public repositories in biomedicine. | |
Using Semantic Web in ICD-11: Three Years Down the Road | |
Using SPARQL to query bioportal ontologies and metadata | |
Using text to build semantic networks for pharmacogenomics | |
Using the wisdom of the crowds to find critical errors in biomedical ontologies: a study of SNOMED CT. | |
Utilizing a structural meta-ontology for family-based quality assurance of the BioPortal ontologies | |
The variable quality of metadata about biological samples used in biomedical experiments | |
VM-in-Protégé: a study of software reuse. | |
VO: Vaccine Ontology | |
WebProtégé 3.0 - Collaborative OWL Ontology Engineering in the Cloud | |
WebProtégé: a collaborative Web-based platform for editing biomedical ontologies | |
WebProtégé: Supporting the Creation of ICD-11 | |
What Four Million Mappings Can Tell You about Two Hundred Ontologies | |
Will Semantic Web Technologies Work for the Development of ICD-11? | |
Wrestling with SUMO and bio-ontologies | |
보건정보학개론 |