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Content

Inhalt: Learning: Basic Processes - Introduction - Basic Information Processes - Integrating Themes - Where do Integrating Themes come From? - Theory Generation and Testing - Learning: Individual Differences - Styles of Learning - Levels of Learning - References - Education - Educational Philosophies and Learning Design - Autonomy and Mediation - Library and Information Science - Standards for Supporting Resource Discovery - Information Seeking and Autonomous Learning - Information Seeking as Conversations - ICT Developments: Resource Discovery - Tools and Techniques to Support Information Seeking and Resource Discovery - Metadata - Ontologies and the Semantic Web - Educational Metadata and Ontologies - ICT Developments: Learning Design And Teaching - Intelligent and Adaptive Tutoring Systems - Learning Environments and Interoperability - General ICT-Based Developments - Educational Opportunities Afforded by ICT Developments - Educational Informatics Systems: Individual Approaches - Metadata-Enabled Learning Resource Discovery - Adaptive Systems for Personalised Resource Discovery - Open Corpus Resource Discovery - From Supplantation to Metacognition - Educational Informatics Systems: Social Approaches - Alternative Pedagogies - Educational Informatics Systems that Learn - Community-Based Learning - Real World Learning - Theory and Practice - Educational Informatics Support for Critical Thinking and Creativity - Making Sense of Research: Generating Useful Real World Knowledge - Going Forward: Research Issues and the Future - Different Perspectives on Educational Informatics Developments - Types Of Evidence - Contingent Dependencies, and Object and Meta Languages - Reality Checking For Quality Control - Towards the Learning Web

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Abstract

This book explores the software design, social practices, and collaboration theory that would be needed to support group cognition - collective knowledge that is constructed by small groups online. Innovative uses of global and local networks of linked computers make new ways of collaborative working, learning, and acting possible. In "Group Cognition", Gerry Stahl explores the technological and social reconfigurations that are needed to achieve computer-supported collaborative knowledge building - group cognition that transcends the limits of individual cognition. Computers can provide active media for social group cognition where ideas grow through the interactions within groups of people; software functionality can manage group discourse that results in shared understandings, new meanings, and collaborative learning. Stahl offers software design prototypes, analyses empirical instances of collaboration, and elaborates a theory of collaboration that takes the group, rather than the individual, as the unit of analysis. Stahl's design studies concentrate on mechanisms to support group formation, multiple interpretive perspectives, and the negotiation of group knowledge in applications as varied as collaborative curriculum development by teachers, writing summaries by students, and designing space voyages by NASA engineers. His empirical analysis shows how, in small-group collaborations, the group constructs intersubjective knowledge that emerges from and appears in the discourse itself. This discovery of group meaning becomes the springboard for Stahl's outline of a social theory of collaborative knowing. Stahl also discusses such related issues as the distinction between meaning making at the group level and interpretation at the individual level, appropriate research methodology, philosophical directions for group cognition theory, and suggestions for further empirical work.

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Date

25. 2.2008 19:29:40