Sustaining Knowledge Building as a Principle-Based Innovation at an Elementary School

Zhang, Jianwei; Hong, Huang‐Yao; Scardamalia, Marlene; Teo, Chew Lee; Morley, Elizabeth

doi:10.1080/10508406.2011.528317

Cited by 145 publications

(87 citation statements)

References 47 publications

(68 reference statements)

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“…This study contributes to the educational aim to prepare students to collaborate in solving future problems and producing innovations in areas that presently do not exist (Sawyer, 2006(Sawyer, , 2012(Sawyer, , 2014Zang, Hong, Scardamalia, Teo, & Morley, 2011). By understanding competency outcomes, innovation processes can be harnessed in educational purposes to foster learning.…”

Section: Discussionmentioning

confidence: 99%

“…High expectations is being placed on the cooperation and networking between individual people, employees, entrepreneurs and even students as sources of innovation (Høyrup, Bonnafous-Boucher, Hasse, Lotz, & Moller, 2012;Kesting & Ulhøi, 2010;Hasu, Honkaniemi, Saari, Mattelmä ki, & Koponen, 2014;Miettinen, 2013;Hippel, 2005). Young people are expected to be prepared to collaborate in solving future problems and producing innovations in areas that presently do not exist (Sawyer, 2006(Sawyer, , 2012(Sawyer, , 2014Zang, Hong, Scardamalia, Teo, & Morley, 2011). It is the task of education to equip people with suitable competences.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Individual Innovation Competence: A Systematic Review and Future Research Agenda

Hero

Lindfors

Taatila

2017

IJHE

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Learning for innovation is a central element in European policymaking in developing higher education. Students often learn in project settings together with work organizations developing new solutions, products and services. These authentic creative, social and collaborative settings offer an attractive learning environment. The aim of this study was to determine the factors involved in individual innovation competence to be able to design, tutor and assess the pedagogical processes where authentic open-ended tasks are being solved transforming novel ideas into usable products or services. After defining the extraction criteria using a limited sample of articles, a bias-assessed systematic review was conducted of empirical research articles published in 2006-2015. Twenty-eight journal articles were ultimately included in the review. Despite the volume of academic literature in this field, comparatively few studies providing findings addressing the review objectives could be found. There was, however a reasonable weight of research evidence to support the result. The findings suggest that personal characteristics, such as flexibility, achievement orientation, motivation and engagement, self-esteem and self-management, future orientation, creative thinking skills, social skills, project management skills, and content knowledge and making skills can be needed in collaborative innovation process. These findings have implications for pedagogical innovation processes and for competency-based assessment.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Individual Innovation Competence: A Systematic Review and Future Research Agenda

Hero

Lindfors

Taatila

2017

IJHE

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“…Following the analyses employed in the study of knowledge-building teachers, the participation patterns of their students were examined to identify any changes. Three quantitative indices, derived from the Applet tools, were included: (a) the students' contribution to the community, based on the number of notes written; (b) their awareness of the contribution of others, based on the density of notereading; and (c) their connectedness with others' notes, based on the density of linked and build-on notes (Zhang et al 2011). The density of a network is determined by the number of lines between nodes divided by the maximum number of all possible lines, the value being between 0 and 1.…”

Section: Changes Of Student Participationmentioning

confidence: 99%

Bridging research and practice: Implementing and sustaining knowledge building in Hong Kong classrooms

Chan

2011

Computer Supported Learning

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Despite major theoretical progress in computer-supported collaborative learning (CSCL), relatively less attention has been paid to the problem of how research advances may impact schools and classrooms. Given the global changes and educational policies for twenty-first century education, issues of how research in CSCL can be integrated with classroom practice for innovation pose important challenges. This paper draws on experiences in Hong Kong and examines research-based CSCL classroom innovations in the context of scaling up and sustaining a knowledge-building model in Hong Kong classrooms. It begins with an examination of the rationale for CSCL research in classrooms and then considers a range of problems and constraints for school implementation. Classroom innovations involve complex and emergent changes occurring at different levels of the educational system. The experience of CSCL knowledge-building classroom innovations in Hong Kong schools is reported, including: the macro-context of educational policies and educational reform, the meso-context of a knowledge-building teacher network, and the micro-context of knowledge-building design in classrooms. Three interacting themes-context and systemic change, capacity and community building, and innovation as inquiry-are proposed for examining collaboration and knowledge creation for classroom innovation.

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“…They focus instead on the epistemology, pedagogy and technology for the shared production of knowledge, with the goal of bringing the idea of advancing communal knowledge to the classroom setting. Bereiter and Scardamalia have developed a 'Knowledge Building' approach (Scardamalia & Bereiter, 1991, 2006and 2014henceforth, KB) that currently informs educational intervention from elementary school (e.g., Zhang et al, 2011) to university (e.g., Cacciamani et al, 2012;Hong, Chen & Chai, 2016).…”

Section: Knowledge Buildingmentioning

confidence: 99%

“…However, longitudinal analyses of sustained KB practice in STEM disciplines show how participants tend to adopt vocabulary and argumentation patterns modeled on scientific discourse (Zhang, Hong, Scardamalia, Teo & Morley, 2011;Chen, Matsuzawa & Scardamalia, 2015). Indeed, the natural sciences build on a common body of knowledge about the means ('scientific enquiry') and goals ('scientific ex-planations') of science.…”

Section: Knowledge Building Vs Dialogic Educationmentioning

confidence: 99%

Dialogic Literacy: contexts, competences and dispositions

Caviglia¹,

Dalsgaard²,

Delfino³

et al. 2017

L1 Educational Studies in Language and Literature

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Dialogic Literacy is understood as being able to participate in productive dialogue with others and is a key competence for learning and active citizenship in a cultural and societal landscape shaped by the 'participatory turn'. The article develops a definition of Dialogic Literacy based on a cross-disciplinary approach combining deliberative discourse, collaborative rationality, and Moral Foundation Theory. Furthermore, it presents a framework that educators can utilize in order to transform classroom discussion into activity that fosters learners' Dialogic Literacy. Finally, the article argues for elevating the status of Dialogic Literacy as an overarching learning goal that should become an integral part of language education.

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Sustaining Knowledge Building as a Principle-Based Innovation at an Elementary School

Cited by 145 publications

References 47 publications

Individual Innovation Competence: A Systematic Review and Future Research Agenda

Individual Innovation Competence: A Systematic Review and Future Research Agenda

Bridging research and practice: Implementing and sustaining knowledge building in Hong Kong classrooms

Dialogic Literacy: contexts, competences and dispositions

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