Show Summary Details
- Title Pages
- Foreword
- Preface
- Introduction
-
1 E-Science, Cyberinfrastructure, and Scholarly Communication -
2 Cyberscience: The Age of Digitized Collaboration? -
3 From Shared Databases to Communities of Practice: A Taxonomy of Collaboratories -
4 A Theory of Remote Scientific Collaboration -
5 Collaborative Research across Disciplinary and Organizational Boundaries -
6 A National User Facility That Fits on Your Desk: The Evolution of Collaboratories at the Pacific Northwest National Laboratory -
7 The National Virtual Observatory -
8 High-Energy Physics: The Large Hadron Collider Collaborations -
9 The Upper Atmospheric Research Collaboratory and the Space Physics and Aeronomy Research Collaboratory -
10 Evaluation of a Scientific Collaboratory System: Investigating Utility before Deployment -
11 The National Institute of General Medical Sciences Glue Grant Program -
12 The Biomedical Informatics Research Network -
13 Three Distributed Biomedical Research Centers -
14 Motivation to Contribute to Collaboratories: A Public Goods Approach -
15 Ecology Transformed: The National Center for Ecological Analysis and Synthesis and the Changing Patterns of Ecological Research -
16 The Evolution of Collaboration in Ecology: Lessons from the U.S. Long-Term Ecological Research Program -
17 Organizing for Multidisciplinary Collaboration: The Case of the Geosciences Network -
18 NEESgrid: Lessons Learned for Future Cyberinfrastructure Development -
19 International AIDS Research Collaboratories: The HIV Pathogenesis Program -
20 How Collaboratories Affect Scientists from Developing Countries - Conclusion Final Thoughts: Is There a Science of Collaboratories?
- Contributors
- Index
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- Title Pages
- Foreword
- Preface
- Introduction
-
1 E-Science, Cyberinfrastructure, and Scholarly Communication -
2 Cyberscience: The Age of Digitized Collaboration? -
3 From Shared Databases to Communities of Practice: A Taxonomy of Collaboratories -
4 A Theory of Remote Scientific Collaboration -
5 Collaborative Research across Disciplinary and Organizational Boundaries -
6 A National User Facility That Fits on Your Desk: The Evolution of Collaboratories at the Pacific Northwest National Laboratory -
7 The National Virtual Observatory -
8 High-Energy Physics: The Large Hadron Collider Collaborations -
9 The Upper Atmospheric Research Collaboratory and the Space Physics and Aeronomy Research Collaboratory -
10 Evaluation of a Scientific Collaboratory System: Investigating Utility before Deployment -
11 The National Institute of General Medical Sciences Glue Grant Program -
12 The Biomedical Informatics Research Network -
13 Three Distributed Biomedical Research Centers -
14 Motivation to Contribute to Collaboratories: A Public Goods Approach -
15 Ecology Transformed: The National Center for Ecological Analysis and Synthesis and the Changing Patterns of Ecological Research -
16 The Evolution of Collaboration in Ecology: Lessons from the U.S. Long-Term Ecological Research Program -
17 Organizing for Multidisciplinary Collaboration: The Case of the Geosciences Network -
18 NEESgrid: Lessons Learned for Future Cyberinfrastructure Development -
19 International AIDS Research Collaboratories: The HIV Pathogenesis Program -
20 How Collaboratories Affect Scientists from Developing Countries - Conclusion Final Thoughts: Is There a Science of Collaboratories?
- Contributors
- Index
