UID:
almahu_9948025444202882
Format:
1 online resource (285 p.)
ISBN:
1-78063-014-X
Series Statement:
Chandos Information Professional Series
Content:
Virtual Research Environments examines making Information and Communication Technologies (ICT) usable by researchers working to solve "grand challenge? problems in many disciplines from social science to particle physics. It is driven by research the authors have carried out to evaluate researchers' requirements in using information services via web portals and in adapting collaborative learning tools to meet their more diverse needs, particularly in a multidisciplinary study.This is the motivation for what the authors have helped develop into the UK Virtual Research Environments (VRE)
Note:
Description based upon print version of record.
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Cover; Virtual ResearchEnvironments: From portals to science gateways; Copyright; Contents; List of figures and tables; About the author; Acknowledgments; Preface; 1 Introduction; What is e-research?; What is a VRE?; Portals and science gateways for e-research; A service-oriented architecture approach; Development methodology; Note; 2 Motivation and requirements; Research lifecycle: data, information and knowledge; Generic usage scenario and requirements; What functionality does an e-researcher need?; What components need to be integrated for e-research?; Illustrative examples
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3 Creating and using research dataCharacteristics of data; High-performance computing in e-research; Managing research data; 4 Managing and using digital information; Information sources used by researchers; E-research and the wider information environment; 5 Collaboration, trust and security; Virtual organisations and their implementation; Collaborative working; Collaboration tools; Security in a VRE: authentication and authorisation; 6 Domain differences and usability; E-research, e-learning and digital information; Differences between research domains; Usability
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7 VRE architecture: the technologyDon't reinvent the wheel; N-tier architecture; Web services and service-oriented architecture; Security frameworks; VRE service definitions; What e-infrastructure is available?; 8 E-infrastructure and grid resources; What is grid computing?; Grid applications; Middleware; E-infrastructure, SOA and services; 9 Desktop environments and the web; Lightweight grid computing; Desktop e-research tools; E-research portals; 10 The Sakai collaborative learning and research framework; Working with Sakai; Portal prototype: the Sakai VRE Demonstrator
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Portal organisation and use cases11 Example 1: E-infrastructure for social science research; A scenario from social science research; Social science research data; High-performance modelling and software development; Training and outreach; E-infrastructure for social science research; Experiences with the NCeSS VRE; 12 Example 2: E-infrastructure for experimental facilities; Requirements and prerequisites; Mapping requirements to data flow, data models and analysis; Project management and other issues; 13 Conclusions: lessons learned and limitations; Top ten e-research requirements
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Impact of e-researchFuture; Appendix A: E-research portals and gateways; USA: TeraGrid Science Gateways; Projects in Europe; Australasia; Appendix B: E-research tools and services; Portlet registry; Appendix C: Generic portal engines; Commercial; Public domain; Appendix D: Glossary; Abbreviations and acronyms; Web services nomenclature; Bibliography; Index
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English
Additional Edition:
ISBN 1-84334-562-5
Language:
English
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