Computer Support for Knowledge-Building Communities
01 Jul 1994-The Journal of the Learning Sciences (Lawrence Erlbaum Associates, Inc.)-Vol. 3, Iss: 3, pp 265-283
TL;DR: The conceptual bases of computer-supported intentional learning environments (CSILE) as mentioned in this paper come from research on intentional learning, process aspects of expertise, and discourse in knowledge-building communities, and combine to support the following propositions: schools need to be restructured as communities in which the construction of knowledge is supported as a collective goal, and the role of educational technology should be to replace classroom discourse patterns with those having more immediate and natural extensions to knowledge building communities outside school walls.
Abstract: In this article we focus on educational ideas and enabling technology for knowledge-building discourse. The conceptual bases of computer-supported intentional learning environments (CSILE) come from research on intentional learning, process aspects of expertise, and discourse in knowledge-building communities. These bases combine to support the following propositions: Schools need to be restructured as communities in which the construction of knowledge is supported as a collective goal, and the role of educational technology should be to replace classroom discourse patterns with those having more immediate and natural extensions to knowledge-building communities outside school walls. CSILE is described as a means for refraining classroom discourse to support knowledge building in ways extensible to out-of-school knowledgeadvancing enterprises. Some of the most fundamental problems are logistic, and it is in solving these logistic problems that we see the greatest potential for educational technology.
Citations
More filters
TL;DR: The importance of design- based research for the development of TELEs is described, principles for implementing design-based research withTELEs are proposed, and future challenges of using this methodology are discussed.
Abstract: During the past decade, design-based research has demonstrated its potential as a methodology suitable to both research and design of technology-enhanced learning environments (TELEs). In this paper, we define and identify characteristics of design-based research, describe the importance of design-based research for the development of TELEs, propose principles for implementing design-based research with TELEs, and discuss future challenges of using this methodology.
1,529 citations
Journal Article•
TL;DR: In this paper, design-based research has demonstrated its potential as a methodology suitable to both research and design of technology-enhanced learning environments (TELEs) and discuss future challenges of using this methodology.
Abstract: During the past decade, design-based research has demonstrated its potential as a methodology suitable to both research and design of technology-enhanced learning environments (TELEs). In this paper, we define and identify characteristics of design-based research, describe the importance of design-based research for the development of TELEs, propose principles for implementing design-based research with TELEs, and discuss future challenges of using this methodology. (http://www.springerlink.com/content/a582109091287128/)
1,505 citations
TL;DR: A tool developed for the purpose of assessing teaching presence in online courses that make use of computer conferencing is presented, and preliminary results from the use of this tool are revealed.
Abstract: This paper presents a tool developed for the purpose of assessing teaching presence in online courses that make use of computer conferencing, and preliminary results from the use of this tool. The method of analysis is based on Garrison, Anderson, and Archer’s [1] model of critical thinking and practical inquiry in a computer conferencing context. The concept of teaching presence is constitutively defined as having three categories – design and organization, facilitating discourse, and direct instruction. Indicators that we search for in the computer conference transcripts identify each category. Pilot testing of the instrument reveals interesting differences in the extent and type of teaching presence found in different graduate level online courses.
1,424 citations
01 Jan 2006
TL;DR: It is important to view CSCL as a vision of what may be possible with computers and of what kinds of research should be conducted, rather than as an established body of broadly accepted laboratory and classroom practices.
Abstract: Computer-supported collaborative learning (CSCL) is an emerging branch of the learning sciences concerned with studying how people can learn together with the help of computers. As we will see in this essay, such a simple statement conceals considerable complexity. The interplay of learning with technology turns out to be quite intricate. The inclusion of collaboration, computer mediation and distance education has problematized the very notion of learning and called into question prevailing assumptions about how to study it. Like many active fields of scientific research, CSCL has a complex relationship to established disciplines, evolves in ways that are hard to pinpoint and includes important contributions that seem incompatible. The field of CSCL has a long history of controversy about its theory, methods and definition. Furthermore, it is important to view CSCL as a vision of what may be possible with computers and of what kinds of research should be conducted, rather than as an established body of broadly accepted laboratory and classroom practices. We will start from some popular understandings of the issues of CSCL and gradually reveal its more complex nature. We will review CSCL's historical development and offer our perspective on its future. CSCL within education As the study of particular forms of learning, CSCL is intimately concerned with education. It considers all levels of formal education from kindergarten through graduate study as well as informal education, such as museums. Computers have become important in this, with school districts and politicians around the world setting goals of increasing student access to computers and the Internet. The idea of encouraging students to learn together in small groups has also become increasingly emphasized in the broader learning sciences. However, the ability to combine these two ideas (computer support and collaborative learning, or technology and education) to effectively enhance learning remains a challenge—a challenge that CSCL is designed to address.
1,240 citations
[...]
TL;DR: Mitsch et al. as mentioned in this paper published a Journal of Ecological Engineering (JEE) article with the title of "The Future of Ecology: A Review of Recent Developments".
Abstract: Ecological Engineering: Journal of Ecotechnology. Editor-in-chief William J. Mitsch. Elsevier. 4/yr. DFL 361, $195.
1,161 citations
References
More filters
Book•
01 Jan 1991
TL;DR: This work has shown that legitimate peripheral participation in communities of practice is not confined to midwives, tailors, quartermasters, butchers, non-drinking alcoholics and the like.
Abstract: In this important theoretical treatist, Jean Lave, anthropologist, and Etienne Wenger, computer scientist, push forward the notion of situated learning - that learning is fundamentally a social process. The authors maintain that learning viewed as situated activity has as its central defining characteristic a process they call legitimate peripheral participation (LPP). Learners participate in communities of practitioners, moving toward full participation in the sociocultural practices of a community. LPP provides a way to speak about crucial relations between newcomers and old-timers and about their activities, identities, artefacts, knowledge and practice. The communities discussed in the book are midwives, tailors, quartermasters, butchers, and recovering alcoholics, however, the process by which participants in those communities learn can be generalised to other social groups.
43,846 citations
Book•
01 May 2014
TL;DR: A collection of classic essays written throughout Popper's illustrious career, expounding and defending his 'fallibilist' theory of knowledge and scientific discovery.
Abstract: A collection of classic essays written throughout Popper's illustrious career, expounding and defending his 'fallibilist' theory of knowledge and scientific discovery. He applies his thinking not only to the philosophy of science, but also to a range of other concerns, from political theory to the mind-body problem.
4,621 citations
TL;DR: This paper proposes the development of a new cognitive apprenticeship to teach students the thinking and problem-solving skills involved in school subjects such as reading, writing and mathematics.
Abstract: : Even today, many complex and important skills, such as those required for language use and social interaction, are learned informally through apprenticeshiplike methods -- i.e., methods involving not didactic teaching, but observation, coaching, and successive approximation while carrying out a variety of tasks and activities. The differences between formal schooling and apprenticeship methods are many, but for our purposes, one is most important. Perhaps as a by-product of the specialization of learning in schools, skills and knowledge taught in schools have become abstracted from their uses in the world. In apprenticeship learning, on the other hand, target skills are not only continually in use by skilled practitioners, but are instrumental to the accomplishment of meaningful tasks. Said differently, apprenticeship embeds the learning of skills and knowledge in the social and functional context of their use. This difference is not academic, but has serious implications for the nature of the knowledge that students acquire. This paper attempts to elucidate some of those implications through a proposal for the retooling of apprenticeship methods for the teaching and learning of cognitive skills. Specifically, we propose the development of a new cognitive apprenticeship to teach students the thinking and problem-solving skills involved in school subjects such as reading, writing and mathematics.
4,586 citations