Table of ContentsCollaboratories: Building Electronic Scientific Communities Outline Collaboratories Have Potential Roles in All Phases of Research Distributed Scientific Facilities and Researchers: Selected DOE Scientific User Facilities Diversity of Scientific Collaboratories 3 DOE Collaboratory Prototypes Information Flow in Diesel Combustion Research Secure Collaboration Scenario Data Archive (asynchronous shared data) Materials MicroCharacterization Collaboratory TelePresence Microscopy Current Architecture Instrument Access/Control EMSL A National Scientific User Facility EMSL Research Capabilities Environmental Molecular Sciences Collaboratory Creating a Collaborative Environment: the EMSL NMR Virtual Research Facility Tools for Collaboration Components for Developing Tools Collaborative Tools for Chemistry Research Laboratory Notebooks: the Heart of Scientific Research Functions of Lab Notebooks the primary record of the scientific process Electronic Notebook Design Collaborative Electronic Notebook Systems Association (CENSA) Rich Lysakowski - www.censa.org Chemical and Pharmaceutical companies promoting the development of commercial electronic notebook systems Real Time Interactions Collaboration Management using the Collaborative Research Environment EMSL TeleViewer PRE Product Realization Environment Requirements and Impacts Evaluating “Collaborative Suites for Experiment-Oriented Scientific Research” Anne Schur, et al, ACM Interactions (1998) Expected Impacts of Collaboratories on Chemical Science and Technology Requirements to Achieve the Promise of Collaboratories Collaboratory Resources Mentioned Acknowledgments for Work at PNNL |
Author: Ray Bair
Email: Ray.Bair@pnl.gov Home Page: http://www.emsl.pnl.gov:2080/docs/collab/ |