Abstract is missing.
- Automatic Generation of Workflow ProvenanceRoger S. Barga, Luciano A. Digiampietri. 1-9 [doi]
- Managing Rapidly-Evolving Scientific WorkflowsJuliana Freire, Cláudio T. Silva, Steven P. Callahan, Emanuele Santos, Carlos Eduardo Scheidegger, Huy T. Vo. 10-18 [doi]
- Virtual Logbooks and Collaboration in Science and Software DevelopmentDimitri Bourilkov, Vaibhav Khandelwal, Archis Kulkarni, Sanket Totala. 19-27 [doi]
- Applying Provenance in Distributed Organ Transplant ManagementSergio Álvarez-Napagao, Javier Vázquez-Salceda, Tamás Kifor, László Zsolt Varga, Steven Willmott. 28-36 [doi]
- Provenance Implementation in a Scientific Simulation EnvironmentGuy K. Kloss, Andreas Schreiber. 37-45 [doi]
- Towards Low Overhead Provenance Tracking in Near Real-Time Stream FilteringNithya N. Vijayakumar, Beth Plale. 46-54 [doi]
- Enabling Provenance on Large Scale e-Science ApplicationsMiguel Branco, Luc Moreau. 55-63 [doi]
- Harvesting RDF TriplesJoe Futrelle. 64-72 [doi]
- Mapping Physical Formats to Logical Models to Extract Data and Metadata: The Defuddle Parsing EngineTara D. Talbott, Karen Schuchardt, Eric G. Stephan, James D. Myers. 73-81 [doi]
- Annotation and Provenance Tracking in Semantic Web Photo LibrariesChristian Halaschek-Wiener, Jennifer Golbeck, Andrew Schain, Michael Grove, Bijan Parsia, James A. Hendler. 82-89 [doi]
- Metadata Catalogs with Semantic RepresentationsYolanda Gil, Varun Ratnakar, Ewa Deelman. 90-100 [doi]
- Combining Provenance with Trust in Social Networks for Semantic Web Content FilteringJennifer Golbeck. 101-108 [doi]
- Recording Actor State in Scientific WorkflowsIan Wootten, Omer F. Rana, Shrija Rajbhandari. 109-117 [doi]
- Provenance Collection Support in the Kepler Scientific Workflow SystemIlkay Altintas, Oscar Barney, Efrat Jaeger-Frank. 118-132 [doi]
- A Model for User-Oriented Data Provenance in Pipelined Scientific WorkflowsShawn Bowers, Timothy M. McPhillips, Bertram Ludäscher, Shirley Cohen, Susan B. Davidson. 133-147 [doi]
- Applying the Virtual Data Provenance ModelYong Zhao, Michael Wilde, Ian T. Foster. 148-161 [doi]
- A Provenance Model for Manually Curated DataPeter Buneman, Adriane Chapman, James Cheney, Stijn Vansummeren. 162-170 [doi]
- Issues in Automatic Provenance CollectionUri Braun, Simson L. Garfinkel, David A. Holland, Kiran-Kumar Muniswamy-Reddy, Margo I. Seltzer. 171-183 [doi]
- Electronically Querying for the Provenance of EntitiesSimon Miles. 184-192 [doi]
- AstroDAS: Sharing Assertions Across Astronomy Catalogues Through Distributed AnnotationRajendra Bose, Robert G. Mann, Diego Prina-Ricotti. 193-202 [doi]
- Security Issues in a SOA-Based Provenance SystemVictor Tan, Paul T. Groth, Simon Miles, Sheng Jiang, Steve Munroe, Sofia Tsasakou, Luc Moreau. 203-211 [doi]
- Implementing a Secure Annotation ServiceImran Khan, Ronald Schroeter, Jane Hunter. 212-221 [doi]
- Performance Evaluation of the Karma Provenance Framework for Scientific WorkflowsYogesh L. Simmhan, Beth Plale, Dennis Gannon, Suresh Marru. 222-236 [doi]
- Exploring Provenance in a Distributed Job Execution SystemChristine F. Reilly, Jeffrey F. Naughton. 237-245 [doi]
- gLite Job ProvenanceFrantisek Dvorák, Daniel Kouril, Ales Krenek, Ludek Matyska, Milos Mulac, Jan Pospísil, Miroslav Ruda, Zdenek Salvet, Jirí Sitera, Michal Vocu. 246-253 [doi]
- An Identity Crisis in the Life SciencesJun Zhao, Carole A. Goble, Robert Stevens. 254-269 [doi]
- CombeChem: A Case Study in Provenance and Annotation Using the Semantic WebJeremy G. Frey, David De Roure, Kieron R. Taylor, Jonathan W. Essex, Hugo R. Mills, Ed Zaluska. 270-277 [doi]
- Principles of High Quality Documentation for Provenance: A Philosophical DiscussionPaul T. Groth, Simon Miles, Steve Munroe. 278-286 [doi]