about
P185
Two Influential Primate Classifications Logically AlignedIntroducing Explorer of Taxon Concepts with a case study on spider measurement matrix buildingSemantic annotation of mutable dataA cell-centered database for electron tomographic data.The many faces of process interaction graphs: a data management perspective.Sole-Search: an integrated analysis program for peak detection and functional annotation using ChIP-seq data.Introducing W.A.T.E.R.S.: a workflow for the alignment, taxonomy, and ecology of ribosomal sequences.Workflows for microarray data processing in the Kepler environment.Reasoning over taxonomic change: exploring alignments for the Perelleschus use case.AutoDrug: fully automated macromolecular crystallography workflows for fragment-based drug discovery.Efficient Provenance Storage over Nested Data CollectionsBiomedical informatics research network: building a national collaboratory to hasten the derivation of new understanding and treatment of disease.Towards a formalization of disease-specific ontologies for neuroinformatics.Workflows and Provenance: Toward Information Science Solutions for the Natural Sciences.Controlling the taxonomic variable: Taxonomic concept resolution for a southeastern United States herbarium portalAgreeing to disagree: Reconciling conflicting taxonomic views using a logic-based approachUnderstanding Collaborative Studies through Interoperable Workflow ProvenanceSpecial Issue: The First Provenance ChallengeGuest editors' introduction to the special section on scientific workflowsReport on the EDBT'02 panel on scientific data integrationA knowledge environment for the biodiversity and ecological sciencesTowards a federated neuroscientific knowledge management system using brain atlasesA Model-Based Mediator System for Scientific Data ManagementSchema VersioningYesWorkflow: A User-Oriented, Language-Independent Tool for Recovering Workflow Information from ScriptsRevealing the Detailed Lineage of Script Outputs Using Hybrid ProvenanceScientific workflow management and the Kepler systemData Integration and Workflow Solutions for EcologyEcological Niche Modeling Using the Kepler Workflow SystemSemantic Mediation to Improve Reproducibility for Biomolecular NMR AnalysisLogic-Based Schema Alignment for Natural History Museum DatabasesCultural Dynamics, Deep Time, and DataDataONE: A Data Federation with Provenance SupportProvenance Storage, Querying, and Visualization in PBaseProvenance-Based Searching and Ranking for Scientific WorkflowsThe PBase Scientific Workflow Provenance RepositoryOn implementing provenance-aware regular path queries with relational query enginesScientific Workflows and Provenance: Introduction and Research OpportunitiesManaging semistructured data with florid: a deductive object-oriented perspective
P50
Q27319839-D525267F-0601-4652-8260-6BCD480E7232Q28595558-8313CD28-121E-4AA3-9C36-924427F44F13Q28661780-57C5269F-63A1-49A8-8778-7BCE6B7C218FQ30710783-8B844F0F-AEDC-4496-92A8-B094DF5B729FQ30807744-CC8E08A8-590F-4B16-AADF-63CCBA8B0294Q33515789-403B8E75-84DB-403B-8753-CE9A625F58E1Q33601988-A59FD45E-B78E-4A44-AFD2-CE06D1C69B80Q34272531-A306A4ED-41F9-429C-86AD-6E6CAC36896CQ35564611-D96607B1-DD8A-424B-9D33-12E9AD2C9909Q36806971-44F5B8AB-C200-4D69-9BAA-643E41B6A517Q36826394-9F4CD727-1DED-4FCA-8F72-2AE5018A3223Q38457757-CE718BBD-9730-4E4F-ABBD-5B62AF50F4E8Q38522458-6EFF6466-3712-428E-90CB-4B2422CAB4F0Q47555857-8B514262-4DE0-409D-AFCF-56BDB6A8DC7BQ55094557-547B7C83-205A-483F-8934-6210EA2500F5Q56447797-29A2E4E5-F80E-4351-AE45-36EDA4AFB638Q56966804-9D77CD7D-43DF-4BBB-B332-90A471DFE43AQ56966880-F2535824-0A2F-49CF-B897-1C10A2642E89Q56967013-F1F32585-E715-4F84-B124-1375E685AC5BQ56967166-1E2C1FF8-A558-49A0-9F7B-E94FD30F1E85Q57004921-694676EC-FFAB-46CC-91EB-5F55A35BABFAQ57259941-009F0266-E183-4700-AC45-02E16FBA408DQ57265283-CE6DB5E5-ADAA-4DF1-9782-560C523998C8Q57381995-C79DC60C-E0E4-4757-AAD7-6BE3A9590317Q57409482-0591283A-9793-497A-BF33-533090F88DF4Q57566401-D8D88DFD-1CBF-4BBB-8380-153C251764B0Q57566453-637302CF-7353-4847-926B-0ED60B4E45AAQ57566458-EA7F1ABC-D967-48DF-BC5F-0904C65EE861Q57566461-4207E688-87FA-4FB2-82AF-C3DAA59CA45CQ58576115-4440D80C-B8E6-4822-A2BD-46B83E99FFE7Q58626822-333AF28E-CBD3-4F82-BBE4-8B8059B27C38Q59222191-3A1848EE-2102-438E-AC5A-1DE58D76D501Q59635328-943849FE-7EA3-4818-A99A-DA60A797F630Q59635359-99AE4475-A90D-44E2-8FAE-1BCB1C48C477Q61736705-2EBCD253-9F2A-4F0A-B2AF-08D050352253Q61736707-483131B4-CD1B-4AB3-AF12-16897BE5D252Q61736709-73C6ABF2-894F-4824-9D03-F7C9A32A51FFQ61736714-BBA36D75-DB25-42A7-95A2-27CB937C52EDQ63641247-fee474bc-41e9-c855-0a53-bd12a3f0f257
P50
description
researcher ORCID ID = 0000-0001-9140-936X
@en
wetenschapper
@nl
name
Bertram Ludäscher
@ast
Bertram Ludäscher
@en
Bertram Ludäscher
@nl
type
label
Bertram Ludäscher
@ast
Bertram Ludäscher
@en
Bertram Ludäscher
@nl
prefLabel
Bertram Ludäscher
@ast
Bertram Ludäscher
@en
Bertram Ludäscher
@nl
P2456
l/BertramLudascher
P31
P496
0000-0001-9140-936X